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Alessandro Francisco Talamini Do Amarante - One of the best experts on this subject based on the ideXlab platform.
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Is there competition between Haemonchus contortus and Haemonchus placei in a pasture grazed by only sheep
Veterinary parasitology, 2020Co-Authors: Michelle C. Santos, Mônica R.v. Amarante, Alessandro Francisco Talamini Do AmaranteAbstract:This study aimed to evaluate the dynamics of Haemonchus contortus and Haemonchus placei infections and hybridization between these species in grazing sheep without contact with cattle. On January 14, 2014, sixteen young sheep were infected with 4000 infective H. placei third-stage larvae L3; 11 days later, another group n = 16 was infected with 4000 H. contortus L3. The establishment rates of H. contortus and H. placei L3 were, on average, 61.6 % and 56.8 %, respectively, in the permanent sheep. After the establishment of patent infections, all permanent sheep were allocated together in the same clean pasture where they grazed for the next 12 months. Euthanasia of a sample of the permanent sheep was performed every three months: in May, August, November and February. Two weeks before the sheep were removed for euthanasia, 2 worm-free tracer sheep were introduced to the pasture to evaluate the larval population in the field. The tracer sheep grazed alongside the permanent sheep for 2 weeks. Then, they were housed indoors for 20 days; at the end of this period, they were euthanized. Parasites were recovered from the permanent and tracer sheep and identified using morphological and molecular techniques. A total of 432 worms (from permanent and tracer animals) were analyzed by PCR using species-specific primer pairs. Of these specimens, only two (0.46 %) male worms were identified as hybrids: one was recovered from a permanent animal euthanized in August and the other from a tracer sheep that grazed in May. The last detection of adult H. placei worms occurred in sheep euthanized in May (approximately 3.5 months after the beginning of the grazing period). The morphological evaluation of the L3 produced in fecal cultures showed that H. placei were progressively replaced by H. contortus populations starting in March. The last trace of H. placei L3 was found in August, when a small percentage (0.5 %) of infective larvae with H. placei morphology was identified in a fecal culture. In conclusion, hybridization between H. contortus and H. placei can occur in the field during coinfection. It was demonstrated that H. placei established successfully in artificially infected worm-free sheep; however, with concomitant natural reinfection with H. contortus, the H. placei population showed a rapid decrease and was eliminated within a few months in an environment without cattle.
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Establishment of co-infection and hybridization of Haemonchus contortus and Haemonchus placei in sheep.
Journal of helminthology, 2018Co-Authors: Michelle C. Santos, M. R. V. Amarante, Alessandro Francisco Talamini Do AmaranteAbstract:This study aimed to evaluate the simultaneous infections of Haemonchus contortus and Haemonchus placei in sheep, as well as the production of hybrids. A parental group of lambs (n = 6) were mix-infected with 2000 infective larvae (L3) of H. placei and 2000 L3 of H. contortus. Faecal samples were taken from each of these six lambs to produce the first generation of L3 (F1-L3) in individual cultures. These F1-L3 were used to infect 12 lambs; six of them were euthanized at 42 days (Group F1-42) and six at 84 days (Group F1-84) post infection. Polymerase chain reaction (PCR) analysis, using species-specific primer pairs, was the gold standard method for identification of Haemonchus adult species and hybrids. The establishment rate of both species was similar in the parental group: 51.7% H. contortus and 48.3% H. placei. Of the 219 adult specimens from groups F1-42 and F1-84 analysed by PCR, eight (3.65%) were hybrids, 111 were H. contortus and 100 were H. placei. The morphological evaluation of the F1-L3 from the parental group showed a predominance of larvae with H. contortus size (51.5%) in comparison with H. placei (42.8%). In the second generation of L3 (F2-L3) produced by the F1-lambs, larvae with H. contortus morphology predominated, with 81.5% in the F1-42 group and 84.0% in the F1-84 group. In conclusion, an artificial mixed infection by H. contortus and H. placei was established in lambs and resulted in the production of a small number of hybrids among their offspring.
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Helminth infections and hybridization between Haemonchus contortus and Haemonchus placei in sheep from Santana do Livramento, Brazil
Colégio Brasileiro de Parasitologia Veterinaria, 2018Co-Authors: Fabiana Alves De Almeida, César Cristiano Bassetto, Mônica Regina Vendrame Amarante, Ana Cláudia Alexandre De Albuquerque, Renan Zappavigna Costa Starling, Alessandro Francisco Talamini Do AmaranteAbstract:Abstract The occurrence and intensity of helminth infections were evaluated in sheep from pastures shared with cattle. In 2015 and 2016, young male sheep acquired in Santana do Livramento, Rio Grande do Sul, Brazil, were finished in integrated crop-livestock system. We selected the 12 sheep that showed the highest number of nematode eggs per gram of faeces to search for worms in the gastrointestinal tract. Haemonchus contortus and Trichostrongylus colubriformis were the major parasites. H. contortus presented mean intensities of 1,159 and 257 worms in 2015 and 2016, respectively. T. colubriformis displayed mean intensities of 4,149 and 2,427 worms in 2015 and 2016, respectively. Of the 127 male specimens of Haemonchus spp. analysed by Polymerase Chain Reaction (PCR), 125 were H. contortus, one Haemonchus placei and one hybrid. Other species detected were Cooperia punctata , Cooperia pectinata, Cooperia spatulata, Cooperia curticei, Ostertagia ostertagi, Teladorsagia circumcincta , Trichostrongylus axei, Nematodirus spathiger , and Trichuris ovis. Twenty lambs presented cysts of Taenia hydatigena in the liver and mesentery. One lamb presented Coenurus cerebralis, the larval stage of Taenia multiceps, in the brain. In conclusion, sheep from pasture shared with cattle presented a high diversity of nematode species. H. contortus and H. placei co-infection occur with consequent hybridization
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A panel of microsatellite markers to discriminate and study interactions between Haemonchus contortus and Haemonchus placei
Veterinary parasitology, 2017Co-Authors: Michelle C. Santos, Elizabeth Redman, Mônica R.v. Amarante, John S. Gilleard, Alessandro Francisco Talamini Do AmaranteAbstract:Haemonchus contortus and Haemonchus placei are two closely related economically important parasites of ruminants. Their close morphological similarity, common occurrence as co-infections and ability to hybridize makes definitive diagnosis and epidemiological studies in field populations challenging. In this paper, we describe the development of a panel of microsatellite markers that can be used to discriminate and study the genetics of these two parasite species in co-infections and mixed field populations. We have identified two additional microsatellites (Hp52 and Hp53), in addition to three previously reported microsatellites (Hcms3561, Hcms53265 and Hcms36) that have a discrete set of alleles between the two species. Multilocus genotyping of worms with this 5 marker panel from 3 geographically diverse H. placei isolates and 4 geographically diverse H. contortus populations allows unambiguous species assignment of individual worms. This panel of markers should provide a valuable resource in studying the biology and epidemiology of these important ruminant parasite species in the field.
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PCR primers for straightforward differentiation of Haemonchus contortus, Haemonchus placei and their hybrids.
Journal of helminthology, 2017Co-Authors: M. R. V. Amarante, Michelle C. Santos, César Cristiano Bassetto, Alessandro Francisco Talamini Do AmaranteAbstract:Haemonchus contortus and Haemonchus placei are among the major parasites of small ruminants and cattle. Although infection with these nematodes is host-specific, with H. placei predominating in cattle and H. contortus in sheep, cross-infections are observed in areas where both parasites are sympatric, and hybrid offspring can occur. Therefore, a fast and precise method is required for differentiating the parasites. Identification based on spicule morphometry is the most common technique for differentiating Haemonchus species. However, because these measurements overlap between species, morphological analysis is insufficient for differentiating between helminth species. In this work, we present a reliable, conventional polymerase chain reaction (PCR)-based method that uses two species-specific primer pairs to differentiate between H. contortus and H. placei specimens and their hybrids. Each primer pair produces one single and distinct amplification band for each species, which enables the detection of hybrid specimens. These primer pairs were validated by testing eight different populations of H. contortus, H. placei and hybrids.
Michelle C. Santos - One of the best experts on this subject based on the ideXlab platform.
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Is there competition between Haemonchus contortus and Haemonchus placei in a pasture grazed by only sheep
Veterinary parasitology, 2020Co-Authors: Michelle C. Santos, Mônica R.v. Amarante, Alessandro Francisco Talamini Do AmaranteAbstract:This study aimed to evaluate the dynamics of Haemonchus contortus and Haemonchus placei infections and hybridization between these species in grazing sheep without contact with cattle. On January 14, 2014, sixteen young sheep were infected with 4000 infective H. placei third-stage larvae L3; 11 days later, another group n = 16 was infected with 4000 H. contortus L3. The establishment rates of H. contortus and H. placei L3 were, on average, 61.6 % and 56.8 %, respectively, in the permanent sheep. After the establishment of patent infections, all permanent sheep were allocated together in the same clean pasture where they grazed for the next 12 months. Euthanasia of a sample of the permanent sheep was performed every three months: in May, August, November and February. Two weeks before the sheep were removed for euthanasia, 2 worm-free tracer sheep were introduced to the pasture to evaluate the larval population in the field. The tracer sheep grazed alongside the permanent sheep for 2 weeks. Then, they were housed indoors for 20 days; at the end of this period, they were euthanized. Parasites were recovered from the permanent and tracer sheep and identified using morphological and molecular techniques. A total of 432 worms (from permanent and tracer animals) were analyzed by PCR using species-specific primer pairs. Of these specimens, only two (0.46 %) male worms were identified as hybrids: one was recovered from a permanent animal euthanized in August and the other from a tracer sheep that grazed in May. The last detection of adult H. placei worms occurred in sheep euthanized in May (approximately 3.5 months after the beginning of the grazing period). The morphological evaluation of the L3 produced in fecal cultures showed that H. placei were progressively replaced by H. contortus populations starting in March. The last trace of H. placei L3 was found in August, when a small percentage (0.5 %) of infective larvae with H. placei morphology was identified in a fecal culture. In conclusion, hybridization between H. contortus and H. placei can occur in the field during coinfection. It was demonstrated that H. placei established successfully in artificially infected worm-free sheep; however, with concomitant natural reinfection with H. contortus, the H. placei population showed a rapid decrease and was eliminated within a few months in an environment without cattle.
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Establishment of co-infection and hybridization of Haemonchus contortus and Haemonchus placei in sheep.
Journal of helminthology, 2018Co-Authors: Michelle C. Santos, M. R. V. Amarante, Alessandro Francisco Talamini Do AmaranteAbstract:This study aimed to evaluate the simultaneous infections of Haemonchus contortus and Haemonchus placei in sheep, as well as the production of hybrids. A parental group of lambs (n = 6) were mix-infected with 2000 infective larvae (L3) of H. placei and 2000 L3 of H. contortus. Faecal samples were taken from each of these six lambs to produce the first generation of L3 (F1-L3) in individual cultures. These F1-L3 were used to infect 12 lambs; six of them were euthanized at 42 days (Group F1-42) and six at 84 days (Group F1-84) post infection. Polymerase chain reaction (PCR) analysis, using species-specific primer pairs, was the gold standard method for identification of Haemonchus adult species and hybrids. The establishment rate of both species was similar in the parental group: 51.7% H. contortus and 48.3% H. placei. Of the 219 adult specimens from groups F1-42 and F1-84 analysed by PCR, eight (3.65%) were hybrids, 111 were H. contortus and 100 were H. placei. The morphological evaluation of the F1-L3 from the parental group showed a predominance of larvae with H. contortus size (51.5%) in comparison with H. placei (42.8%). In the second generation of L3 (F2-L3) produced by the F1-lambs, larvae with H. contortus morphology predominated, with 81.5% in the F1-42 group and 84.0% in the F1-84 group. In conclusion, an artificial mixed infection by H. contortus and H. placei was established in lambs and resulted in the production of a small number of hybrids among their offspring.
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A panel of microsatellite markers to discriminate and study interactions between Haemonchus contortus and Haemonchus placei
Veterinary parasitology, 2017Co-Authors: Michelle C. Santos, Elizabeth Redman, Mônica R.v. Amarante, John S. Gilleard, Alessandro Francisco Talamini Do AmaranteAbstract:Haemonchus contortus and Haemonchus placei are two closely related economically important parasites of ruminants. Their close morphological similarity, common occurrence as co-infections and ability to hybridize makes definitive diagnosis and epidemiological studies in field populations challenging. In this paper, we describe the development of a panel of microsatellite markers that can be used to discriminate and study the genetics of these two parasite species in co-infections and mixed field populations. We have identified two additional microsatellites (Hp52 and Hp53), in addition to three previously reported microsatellites (Hcms3561, Hcms53265 and Hcms36) that have a discrete set of alleles between the two species. Multilocus genotyping of worms with this 5 marker panel from 3 geographically diverse H. placei isolates and 4 geographically diverse H. contortus populations allows unambiguous species assignment of individual worms. This panel of markers should provide a valuable resource in studying the biology and epidemiology of these important ruminant parasite species in the field.
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PCR primers for straightforward differentiation of Haemonchus contortus, Haemonchus placei and their hybrids.
Journal of helminthology, 2017Co-Authors: M. R. V. Amarante, Michelle C. Santos, César Cristiano Bassetto, Alessandro Francisco Talamini Do AmaranteAbstract:Haemonchus contortus and Haemonchus placei are among the major parasites of small ruminants and cattle. Although infection with these nematodes is host-specific, with H. placei predominating in cattle and H. contortus in sheep, cross-infections are observed in areas where both parasites are sympatric, and hybrid offspring can occur. Therefore, a fast and precise method is required for differentiating the parasites. Identification based on spicule morphometry is the most common technique for differentiating Haemonchus species. However, because these measurements overlap between species, morphological analysis is insufficient for differentiating between helminth species. In this work, we present a reliable, conventional polymerase chain reaction (PCR)-based method that uses two species-specific primer pairs to differentiate between H. contortus and H. placei specimens and their hybrids. Each primer pair produces one single and distinct amplification band for each species, which enables the detection of hybrid specimens. These primer pairs were validated by testing eight different populations of H. contortus, H. placei and hybrids.
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Differentiation of Haemonchus placei from Haemonchus contortus by PCR and by morphometrics of adult parasites and third stage larvae.
Revista brasileira de parasitologia veterinaria = Brazilian journal of veterinary parasitology : Orgao Oficial do Colegio Brasileiro de Parasitologia , 2014Co-Authors: Michelle C. Santos, M. R. V. Amarante, Maria Regina Lucas Da Silva, Alessandro Francisco Talamini Do AmaranteAbstract:Molecular and morphological methods were evaluated to distinguish between Haemonchus contortus and Haemonchus placei species. A total of 141 H. contortus and 89 H. placei male adult specimens collected from artificially infected lambs were identified individually by PCR analysis, using a species-specific primer pair. These PCR results were used as gold standard for Haemonchus spp. identification. Haemonchus placei presented higher mean spicule and barb lengths than H. contortus (P
César Cristiano Bassetto - One of the best experts on this subject based on the ideXlab platform.
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Helminth infections and hybridization between Haemonchus contortus and Haemonchus placei in sheep from Santana do Livramento, Brazil
Colégio Brasileiro de Parasitologia Veterinaria, 2018Co-Authors: Fabiana Alves De Almeida, César Cristiano Bassetto, Mônica Regina Vendrame Amarante, Ana Cláudia Alexandre De Albuquerque, Renan Zappavigna Costa Starling, Alessandro Francisco Talamini Do AmaranteAbstract:Abstract The occurrence and intensity of helminth infections were evaluated in sheep from pastures shared with cattle. In 2015 and 2016, young male sheep acquired in Santana do Livramento, Rio Grande do Sul, Brazil, were finished in integrated crop-livestock system. We selected the 12 sheep that showed the highest number of nematode eggs per gram of faeces to search for worms in the gastrointestinal tract. Haemonchus contortus and Trichostrongylus colubriformis were the major parasites. H. contortus presented mean intensities of 1,159 and 257 worms in 2015 and 2016, respectively. T. colubriformis displayed mean intensities of 4,149 and 2,427 worms in 2015 and 2016, respectively. Of the 127 male specimens of Haemonchus spp. analysed by Polymerase Chain Reaction (PCR), 125 were H. contortus, one Haemonchus placei and one hybrid. Other species detected were Cooperia punctata , Cooperia pectinata, Cooperia spatulata, Cooperia curticei, Ostertagia ostertagi, Teladorsagia circumcincta , Trichostrongylus axei, Nematodirus spathiger , and Trichuris ovis. Twenty lambs presented cysts of Taenia hydatigena in the liver and mesentery. One lamb presented Coenurus cerebralis, the larval stage of Taenia multiceps, in the brain. In conclusion, sheep from pasture shared with cattle presented a high diversity of nematode species. H. contortus and H. placei co-infection occur with consequent hybridization
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PCR primers for straightforward differentiation of Haemonchus contortus, Haemonchus placei and their hybrids.
Journal of helminthology, 2017Co-Authors: M. R. V. Amarante, Michelle C. Santos, César Cristiano Bassetto, Alessandro Francisco Talamini Do AmaranteAbstract:Haemonchus contortus and Haemonchus placei are among the major parasites of small ruminants and cattle. Although infection with these nematodes is host-specific, with H. placei predominating in cattle and H. contortus in sheep, cross-infections are observed in areas where both parasites are sympatric, and hybrid offspring can occur. Therefore, a fast and precise method is required for differentiating the parasites. Identification based on spicule morphometry is the most common technique for differentiating Haemonchus species. However, because these measurements overlap between species, morphological analysis is insufficient for differentiating between helminth species. In this work, we present a reliable, conventional polymerase chain reaction (PCR)-based method that uses two species-specific primer pairs to differentiate between H. contortus and H. placei specimens and their hybrids. Each primer pair produces one single and distinct amplification band for each species, which enables the detection of hybrid specimens. These primer pairs were validated by testing eight different populations of H. contortus, H. placei and hybrids.
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Vaccination of grazing calves with antigens from the intestinal membranes of Haemonchus contortus: effects against natural challenge with Haemonchus placei and Haemonchus similis.
International journal for parasitology, 2014Co-Authors: César Cristiano Bassetto, Maria Regina Lucas Da Silva, George F.j. Newlands, W. D. Smith, J. Ratti Junior, Cyntia Ludovico Martins, Alessandro Francisco Talamini Do AmaranteAbstract:Abstract A vaccine containing integral membrane glycoproteins from the intestine of Haemonchus contortus was evaluated in three groups of eight 5 months old grazing calves, naturally infected by Haemonchus similis , Haemonchus placei and other gastrointestinal nematodes. Vaccinated calves received 5 or 50 μg of the antigen and 1 mg of saponin adjuvant, while the controls received adjuvant alone, initially three times, 3 weeks apart and then four more times at 6 weeks intervals. Three weeks after the last immunisation all of the calves were euthanised for worm counts. Immunisation stimulated high titre antibodies against the vaccine antigens, reduced the egg output of Haemonchus spp. by 85% and the numbers of H. placei and H. similis by 63% and 32%, respectively, compared with control calves. It was concluded that vaccination with intestinal membrane glycoproteins from H. contortus could substantially reduce the transmission of H. placei and H. similis , thus providing protective benefit downstream. This appears to be the first known successful demonstration of a vaccine protective for cattle naturally exposed to infection with any gastrointestinal nematode parasite.
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Immune response to Haemonchus contortus and Haemonchus placei in sheep and its role on parasite specificity
Veterinary Parasitology, 2014Co-Authors: Michelle C. Santos, César Cristiano Bassetto, Mônica R.v. Amarante, Jorge K. Xavier, Alessandro Francisco Talamini Do AmaranteAbstract:Abstract Two trials were conducted to determine the prepatent and the patent period of Haemonchus contortus and Haemonchus placei in Santa Ines crossbred sheep and to determine whether serial infections with both species confer protection against homologous or heterologous challenge. To evaluate the prepatent and patent periods of infection, five lambs received a single infection with 4000 H. contortus-infective larvae (L3), and another five received a single infection with 4000 H. placei L3. H. contortus presented patency earlier than H. placei. Animals infected with both species shed a large number of eggs in the faeces for several months with the highest counts, with means higher than 3000 eggs per gram of faeces (EPG) between 24 and 106 days and between 38 and 73 days post infection with H. contortus and H. placei, respectively. H. contortus eggs were detected in the faeces for a minimum of 302 days and a maximum of 538 days post infection, while the H. placei patent period lasted from 288 to 364 days. In the second trial, one group of lambs (n = 12) was serially infected 12 times (three times per week for four weeks) with 500 L3 of H. placei and then challenged with either H. placei (n = 6) or with H. contortus (n = 6). The lambs in the second group (n = 12) were serially infected 12 times with 500 L3 of H. contortus and then challenged with H. contortus (n = 6) or with H. placei (n = 6), and a third group of lambs was single challenged with H. placei (n = 6), H. contortus (n = 6), or remained uninfected throughout the trial period (control group, n = 6). Animals serially infected with H. placei and then challenged with the same species presented the most intense immune response with the highest levels of anti-parasitic immunoglobulin and number of inflammatory cells in the abomasal mucosa. As a result, this group had the lowest rate of parasite establishment (2.68% of the 4000 L3 given), but this phenomenon did not occur in animals single challenged with H. placei, in which the rate of establishment was relatively high (25.3%), confirming that the protective immune response to H. placei develops only when animals are repeatedly infected with this species. However, when the animals were previously serially infected with H. placei and then challenged with H. contortus, no evidence of significant protection was observed (establishment of 19.18%). The results of the trials showed an important role played by the immune response on parasite–host specificity.
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Protection of calves against Haemonchus placei and Haemonchus contortus after immunization with gut membrane proteins from H. contortus
Parasite immunology, 2011Co-Authors: César Cristiano Bassetto, Bruna Fernanda Da Silva, George F.j. Newlands, W. D. Smith, Alessandro Francisco Talamini Do AmaranteAbstract:A vaccine containing integral membrane glycoproteins from the intestine of Haemonchus contortus was evaluated in four groups of nine worm-free calves challenged with either 8000 H. contortus or Haemonchus placei infective larvae. Vaccinates received 50 μg of the antigen and 1 mg QuilA adjuvant three times 21 days apart, while the controls got adjuvant alone. The calves were challenged 7 days after the last immunization and killed for worm counts 43 days later. Immunization resulted in high titre antibodies against the vaccine antigens and significant reduction in egg output and worm numbers of both challenge species, compared with control calves. It was concluded that vaccination of calves with native parasite gut membrane glycoproteins obtained from H. contortus conferred protection against both H. placei and H. contortus.
Umer Chaudhry - One of the best experts on this subject based on the ideXlab platform.
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Evidence for the F200Y (TAC) mutation conferring benzimidazole resistance in a southern USA cattle population of Haemonchus placei spreading from a single emergence
2019Co-Authors: Umer Chaudhry, Elizabeth Redman, T. A. Yazwinski, Ray M. Kaplan, Neil Sargison, John S. GilleardAbstract:Abstract The benzimidazoles are one of the most important broad-spectrum anthelmintic drug classes for the control of parasitic nematodes of domestic animals and humans. They have been widely used in the livestock sector, particularly in small ruminants for over 40 years. This has resulted in the development and wide spread of resistance in small ruminant gastrointestinal nematode parasite species, including Haemonchus contortus. Recently, resistance to benzimidazole drugs has been reported in Haemonchus placei, but there is relatively little information on its prevalence. It is important to develop a molecular tools to identify resistance mutations in H. placei early in their development in order to understand the emergence and spread. Our previous study demonstrated the F200Y (TAC) mutation at their early stage in 6/9 H. placei populations derived from southern USA, albeit at low frequencies between 2 and 10%. The present study analysis the phylogenetics of the isotype-1 β-tubulin locus to suggest that F200Y (TAC) mutation has been spread from a single emergence in H. placei; likely by the anthroprogenic movement of ruminant livestock in southern USA. Population genetic data of H. placei using a panel of microsatellite markers revealed little genetic sub-structure, consistent with a high level of gene flow in this region. Overall, these results provide clear genetic evidence for the spread of F200Y (TAC) benzimidazoles resistance mutation to multiple different locations from a single emergence in H. placei.
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emergence and the spread of the f200y benzimidazole resistance mutation in Haemonchus contortus and Haemonchus placei from buffalo and cattle
Veterinary Parasitology, 2019Co-Authors: Qasim Ali, Imran Rashid, Muhammad Zubair Shabbir, Kashif Shahzad, Kamran Ashraf, Neil Sargison, Umer ChaudhryAbstract:Abstract Benzimidazoles have been intensively (for over 40 years) used in the livestock sector, particularly in small ruminants. This has been led to the widespread emergence of resistance in a number of small ruminant parasite species, especially Haemonchus contortus. In many countries benzimidazole resistance has severely compromised the control of H. contortus in small ruminants; but there is a little information on benzimidazole resistance in H. contortus infecting buffalo and cattle. Resistance to benzimidazoles have also been reported in the large ruminant parasite, Haemonchus placei, but again there is relatively little information on its prevalence. Hence it is very important to understand how resistance-conferring mutations emerge and spread in both parasites in buffalo and cattle hosts in order to develop approaches for the recognition of the problem at an early stage of its development. The present study suggests that the F200Y (TAC) mutation is common in H. contortus, being detected in 5/7 populations at frequencies between 7 and 57%. Furthermore, 6/10 H. placei populations contained the F200Y (TAC) mutation, albeit at low frequencies of between 0.4 and 5%. The phylogenetic analysis suggests that the F200Y (TAC) mutation in H. contortus has emerged on multiple occasions in the region, with at least three independent emergences across the populations. In contrast, the F200Y (TAC) resistance-conferring mutation in H. placei is only seen on a single haplotype. A high level frequency of the resistance haplotypes in the region, suggests that the unique resistance conferring-mutation has spread from a single emergence; likely by anthropogenic animal movement. Overall, these results provide the first clear genetic evidence for the spread of benzimidazole resistance-conferring mutations to multiple different locations from a single emergence in H. placei; while being consistent with previous small ruminant-based observations of multiple emergence of resistance mutations in H. contortus.
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Population genetics of benzimidazole-resistant Haemonchus contortus and Haemonchus placei from buffalo and cattle: implications for the emergence and spread of resistance mutations
Parasitology Research, 2018Co-Authors: Qasim Ali, Imran Rashid, Muhammad Zubair Shabbir, Kashif Shahzad, Kamran Ashraf, Neil D. Sargison, Umer ChaudhryAbstract:The population genetics of nematode parasites are poorly understood with practical reference to the selection and spread of anthelmintic resistance mutations. Haemonchus species are important to study the nematode population genetics due to their clinical importance in ruminant livestock, and the availability of genomic resources. In the present study, it has been examined that Haemonchus contortus and Haemonchus placei populations from three buffalo and nine cattle hosts. Seventy-three individual adult worms of H. contortus and 148 of H. placei were analysed using a panel of seven microsatellite markers. The number of alleles per locus in H. contortus and H. placei indicated that all populations were polymorphic for the microsatellites used in the present study. Genetic diversity parameters included high levels of allelic richness and heterozygosity, indicating effective population sizes, high mutation rates and high transmission frequencies in the area. Genetic structure parameters revealed low genetic differentiation between and high levels of genetic variation within H. contortus and H. placei populations. Population dynamic analyses showed an absence of heterozygosity excess in both species, suggesting that there was no deviation from genetic drift equilibrium. Our results provide a proof of concept for better understanding of the consequences of specific control strategies, climatic change or management strategies on the population genetics of anthelmintic resistance alleles in Haemonchus spp. infecting co-managed buffalo and cattle.
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emergence and the spread of the f200y benzimidazole resistance mutation in Haemonchus contortus and Haemonchus placei from buffalo and cattle
bioRxiv, 2018Co-Authors: Qasim Ali, Imran Rashid, Muhammad Zubair Shabbir, Kashif Shahzad, Kamran Ashraf, Neil Sargison, Azizul Rahman, Umer ChaudhryAbstract:Benzimidazoles have been intensively used in the livestock sector, particularly in small ruminants for over 40 years. This has been led to the widespread emergence of resistance in a number of small ruminant parasite species, in particular Haemonchus contortus. In many counties benzimidazole resistance in the small ruminants H. contortus has become severely compromising its control; but there is a little information on benzimidazole resistance in H. contortus infecting buffalo and cattle. Resistance to benzimidazoles have also been reported in the large ruminant parasite, Haemonchus placei, but again there is relatively little information on its prevalence. Hence it is extremely important to understand how resistance-conferring mutations emerge and spread in both parasites in the buffalo and cattle host in order to develop the approaches for the recognition of the problem at an early stage of its development. The present study suggests that the F200Y (TAC) mutation is common in H. contortus, being detected in 5/7 populations at frequencies between 7 to 57%. Furthermore, 6/10 H. placei populations contained the F200Y (TAC) mutation, albeit at low frequencies of between 0.4 to 5%. The phylogenetic analysis suggests that the F200Y (TAC) mutation in H. contortus has emerged on multiple occasions in the region, with at least three independent emergence of resistance alleles across the populations. In contrast, the F200Y (TAC) resistance-conferring mutation in H. placei is only seen on a single haplotype. A high level of haplotype frequency of the susceptible alleles in the region, suggests that the unique resistance conferring-mutation has spread from a single emergence; likely by anthropogenic animal movement. Overall, these results provide the first clear genetic evidence for the spread of benzimidazoles resistance-conferring mutations to multiple different locations from a single emergence in H. placei; while supporting previous small ruminant-based observations of multiple emergence of resistance mutations in H. contortus. Keywords: H. placei, H. contortus, anthelmintic drug classes, benzimidazole resistance.
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Genetic evidence for hybridisation between Haemonchus contortus and Haemonchus placei in natural field populations and its implications for interspecies transmission of anthelmintic resistance.
International journal for parasitology, 2014Co-Authors: Umer Chaudhry, Kamran Ashraf, Elizabeth M Redman, Muhammad Abbas, Raman Muthusamy, John S. GilleardAbstract:Genetic hybridisation between parasitic nematode species has potentially important consequences. It could lead to the introgression of genes between species including those involved in pathogenicity, host specificity, transmission and drug resistance. It could also complicate diagnosis and control. However, there are few compelling examples of its occurrence in parasites in the field. Haemonchus contortus and Haemonchus placei are two closely related parasitic nematode species that predominantly infect small ruminants and cattle, respectively. They are capable of experimental hybridisation when adult worms of each species are transplanted into the same individual host. Given that co-infection occurs in both small ruminants and cattle, there is potential for hybridisation in the field. However, this has not been definitively demonstrated and its extent is unknown. We investigated the occurrence of co-infection and interspecies hybridisation in H. contortus and H. placei in field populations from small ruminants from Pakistan and southern India using a number of independent genetic markers. Haemonchus contortus and H. placei co-infections were common in Pakistan but not in southern India where H. placei appeared to be absent in small ruminant hosts. In the former region, a number of worms were identified that were heterozygous for fixed, species-specific rDNA internal transcribed spacer 2 (ITS-2) single nucleotide polymorphisms. Genotyping of these ITS-2 heterozygotes with an additional four nuclear markers conclusively demonstrated them to be F1 interspecies hybrids. Mitochondrial NADH dehydrogenase subunit 4 haplotype analysis demonstrated that four of the hybrid worms had a H. placei maternal parent and one had a H. contortus maternal parent showing that hybridisation could occur in either direction. Interestingly, one of these hybrids contained an H. contortus isotype-1 β-tubulin benzimidazole resistance allele, suggesting there is a potential for interspecies introgression of drug resistance loci. We believe this is the first definitive genetic evidence of hybridisation between H. contortus and H. placei in the field and represents the most comprehensive genetic evidence of F1 hybrids between any human or livestock parasitic nematode species to date. Further, it suggests that interspecies transmission of anthelmintic resistance mutations warrants further investigation.
John S. Gilleard - One of the best experts on this subject based on the ideXlab platform.
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Evidence for the F200Y (TAC) mutation conferring benzimidazole resistance in a southern USA cattle population of Haemonchus placei spreading from a single emergence
2019Co-Authors: Umer Chaudhry, Elizabeth Redman, T. A. Yazwinski, Ray M. Kaplan, Neil Sargison, John S. GilleardAbstract:Abstract The benzimidazoles are one of the most important broad-spectrum anthelmintic drug classes for the control of parasitic nematodes of domestic animals and humans. They have been widely used in the livestock sector, particularly in small ruminants for over 40 years. This has resulted in the development and wide spread of resistance in small ruminant gastrointestinal nematode parasite species, including Haemonchus contortus. Recently, resistance to benzimidazole drugs has been reported in Haemonchus placei, but there is relatively little information on its prevalence. It is important to develop a molecular tools to identify resistance mutations in H. placei early in their development in order to understand the emergence and spread. Our previous study demonstrated the F200Y (TAC) mutation at their early stage in 6/9 H. placei populations derived from southern USA, albeit at low frequencies between 2 and 10%. The present study analysis the phylogenetics of the isotype-1 β-tubulin locus to suggest that F200Y (TAC) mutation has been spread from a single emergence in H. placei; likely by the anthroprogenic movement of ruminant livestock in southern USA. Population genetic data of H. placei using a panel of microsatellite markers revealed little genetic sub-structure, consistent with a high level of gene flow in this region. Overall, these results provide clear genetic evidence for the spread of F200Y (TAC) benzimidazoles resistance mutation to multiple different locations from a single emergence in H. placei.
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A panel of microsatellite markers to discriminate and study interactions between Haemonchus contortus and Haemonchus placei
Veterinary parasitology, 2017Co-Authors: Michelle C. Santos, Elizabeth Redman, Mônica R.v. Amarante, John S. Gilleard, Alessandro Francisco Talamini Do AmaranteAbstract:Haemonchus contortus and Haemonchus placei are two closely related economically important parasites of ruminants. Their close morphological similarity, common occurrence as co-infections and ability to hybridize makes definitive diagnosis and epidemiological studies in field populations challenging. In this paper, we describe the development of a panel of microsatellite markers that can be used to discriminate and study the genetics of these two parasite species in co-infections and mixed field populations. We have identified two additional microsatellites (Hp52 and Hp53), in addition to three previously reported microsatellites (Hcms3561, Hcms53265 and Hcms36) that have a discrete set of alleles between the two species. Multilocus genotyping of worms with this 5 marker panel from 3 geographically diverse H. placei isolates and 4 geographically diverse H. contortus populations allows unambiguous species assignment of individual worms. This panel of markers should provide a valuable resource in studying the biology and epidemiology of these important ruminant parasite species in the field.
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Genetic evidence for hybridisation between Haemonchus contortus and Haemonchus placei in natural field populations and its implications for interspecies transmission of anthelmintic resistance.
International journal for parasitology, 2014Co-Authors: Umer Chaudhry, Kamran Ashraf, Elizabeth M Redman, Muhammad Abbas, Raman Muthusamy, John S. GilleardAbstract:Genetic hybridisation between parasitic nematode species has potentially important consequences. It could lead to the introgression of genes between species including those involved in pathogenicity, host specificity, transmission and drug resistance. It could also complicate diagnosis and control. However, there are few compelling examples of its occurrence in parasites in the field. Haemonchus contortus and Haemonchus placei are two closely related parasitic nematode species that predominantly infect small ruminants and cattle, respectively. They are capable of experimental hybridisation when adult worms of each species are transplanted into the same individual host. Given that co-infection occurs in both small ruminants and cattle, there is potential for hybridisation in the field. However, this has not been definitively demonstrated and its extent is unknown. We investigated the occurrence of co-infection and interspecies hybridisation in H. contortus and H. placei in field populations from small ruminants from Pakistan and southern India using a number of independent genetic markers. Haemonchus contortus and H. placei co-infections were common in Pakistan but not in southern India where H. placei appeared to be absent in small ruminant hosts. In the former region, a number of worms were identified that were heterozygous for fixed, species-specific rDNA internal transcribed spacer 2 (ITS-2) single nucleotide polymorphisms. Genotyping of these ITS-2 heterozygotes with an additional four nuclear markers conclusively demonstrated them to be F1 interspecies hybrids. Mitochondrial NADH dehydrogenase subunit 4 haplotype analysis demonstrated that four of the hybrid worms had a H. placei maternal parent and one had a H. contortus maternal parent showing that hybridisation could occur in either direction. Interestingly, one of these hybrids contained an H. contortus isotype-1 β-tubulin benzimidazole resistance allele, suggesting there is a potential for interspecies introgression of drug resistance loci. We believe this is the first definitive genetic evidence of hybridisation between H. contortus and H. placei in the field and represents the most comprehensive genetic evidence of F1 hybrids between any human or livestock parasitic nematode species to date. Further, it suggests that interspecies transmission of anthelmintic resistance mutations warrants further investigation.
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The presence of benzimidazole resistance mutations in Haemonchus placei from US cattle.
Veterinary Parasitology, 2014Co-Authors: Umer Chaudhry, Melissa Miller, T. A. Yazwinski, Ray M. Kaplan, John S. GilleardAbstract:Haemonchus populations were collected from cattle from mid-western and eastern Southern US (four and six populations, respectively) to determine the relative prevalence of Haemonchus contortus and Haemonchus placei and the frequency of the three isotype-1 β-tubulin polymorphisms associated with benzimidazole resistance. A minimum of 32 individual adult worms were genotyped at position 24 of the rDNA ITS-2 for each population to determine species identity (296 worms in total). One population from Georgia was identified as 100% H. contortus with the remaining nine populations identified as 100% H. placei. For the H. contortus population, 29 out of 32 worms carried the P200Y (TAC) isotype-1 β-tubulin and 2 out of 32 worms carried the P167Y (TAC) benzimidazole resistance associated polymorphisms respectively. For H. placei, six out of the nine populations contained the P200Y (TAC) isotype-1 β-tubulin benzimidazole resistance associated polymorphism at low frequency (between 1.6% and 9.4%) with no resistance associated polymorphisms being identified at the P198 and P167 codons. This is the first report of the P200Y (TAC) isotype-1 β-tubulin benzimidazole resistance associated polymorphism in H. placei. The presence of this mutation in multiple independent H. placei populations indicates the risk of resistance emerging in this parasite should benzimidazoles be intensively used for parasite control in US cattle.
