Your search keyword '"Kaplan, Ray"' showing total 12 results

1. Laboratory assays reveal diverse phenotypes among microfilariae of Dirofilaria immitis isolates with known macrocyclic lactone susceptibility status.

Author

Jesudoss Chelladurai JRJ, Martin KA, Chinchilla-Vargas K, Jimenez Castro PD, Kaplan RM, and Brewer MT

Subjects

ATP Binding Cassette Transporter, Subfamily B, Member 1 metabolism, Animals, Cells, Cultured, Dirofilaria immitis metabolism, Dirofilaria immitis pathogenicity, Dirofilariasis parasitology, Dogs, Drug Resistance, Helminth Proteins metabolism, Antinematodal Agents pharmacology, Dirofilaria immitis drug effects, Ivermectin pharmacology, Macrolides pharmacology, Phenotype

Abstract

Prevention of canine heartworm disease caused by Dirofilaria immitis relies on chemoprophylaxis with macrocyclic lactone anthelmintics. Alarmingly, there are increased reports of D. immitis isolates with resistance to macrocyclic lactones and the ability to break through prophylaxis. Yet, there is not a well-established laboratory assay that can utilize biochemical phenotypes of microfilariae to predict drug resistance status. In this study we evaluated laboratory assays measuring cell permeability, metabolism, and P-glycoprotein-mediated efflux. Our assays revealed that trypan blue, propidium iodide staining, and resazurin metabolism could detect differences among D. immitis isolates but none of these approaches could accurately predict drug susceptibility status for all resistant isolates tested. P-glycoprotein assays suggested that the repertoire of P-gp expression is likely to vary among isolates, and investigation of pharmacological differences among different P-gp genes is warranted. Further research is needed to investigate and optimize laboratory assays for D. immitis microfilariae, and caution should be applied when adapting cell death assays to drug screening studies for nematode parasites., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

2. Using population genetics to examine relationships of Dirofilaria immitis based on both macrocyclic lactone-resistance status and geography.

Author

Sanchez J, Dharmarajan G, George MM, Pulaski C, Wolstenholme AJ, Gilleard JS, and Kaplan RM

Subjects

Animals, Dirofilaria immitis drug effects, Dirofilaria immitis growth & development, Genetic Markers, Geography, Macrocyclic Compounds pharmacology, Microfilariae drug effects, Microfilariae genetics, Microfilariae growth & development, United States, Dirofilaria immitis genetics, Drug Resistance genetics, Filaricides pharmacology, Lactones pharmacology, Microsatellite Repeats

Abstract

Prevention of infection with canine heartworm (Dirofilaria immitis) is based on the compliant administration of macrocyclic lactone (ML) drugs. Resistance to ML drugs is well documented in D. immitis; however, there remains a paucity of information on the spatial distribution and prevalence of resistant isolates. This project aims to improve understanding of ML-resistance by using a population genetic approach. We developed a large panel of microsatellite loci and identified 12 novel highly polymorphic markers. These 12, and five previously published markers were used to screen pools of microfilariae from 16 confirmed drug-susceptible, 25 confirmed drug-resistant, and from 10 suspected drug-resistant field isolates. In isolates where microfilarial suppression testing indicated resistance, Spatial Principal Component Analysis (sPCoA), Neighbor Joining Trees and Bayesian clustering all revealed high genetic similarity between pre- and post-treatment samples. Somewhat surprisingly, the Neighbor Joining tree and sPCoA generated using pairwise Nei's distances did not reveal clustering for resistant isolates, nor did it reveal state-level geographic clustering from samples collected in Georgia, Louisiana or Mississippi. In contrast, Discriminant Analysis of Principle Components was able to discriminate between susceptible, suspected-resistant and resistant samples. However, no resistance-associated markers were detected, and this clustering was driven by the combined effects of multiple alleles across multiple loci. Additionally, we measured unexpectedly large genetic distances between different passages of laboratory strains that originated from the same source infection. This finding strongly suggests that the genetic makeup of laboratory isolates can change substantially with each passage, likely due to genetic bottlenecking. Taken together, these data suggest greater than expected genetic variability in the resistant isolates, and in D. immitis overall. Our results also suggest that microsatellite genotyping lacks the sensitivity to detect a specific genetic signature for resistance. Future investigations using genomic analyses will be required to elucidate the genetic relationships of ML-resistant isolates., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

3. Activation of the Toll pathway in Aedes aegypti blocks the development of emerging third-stage larvae of drug-resistant Dirofilaria immitis.

Author

McCrea AR, Jimenez Castro PD, Kaplan RM, and Povelones M

Subjects

Aedes immunology, Animals, Dirofilaria immitis drug effects, Drug Resistance, Insect Proteins genetics, Insect Proteins immunology, Larva drug effects, Larva growth & development, Mosquito Vectors immunology, Aedes parasitology, Dirofilaria immitis growth & development, Filaricides pharmacology, Mosquito Vectors parasitology, Signal Transduction drug effects

Abstract

Dirofilaria immitis is the globally distributed agent of heartworm disease. Infection in canines causes debilitating disease that can be fatal if left untreated. Macrocyclic lactones can prevent heartworm disease in dogs, cats and ferrets by killing larvae before they develop into adult worms in the pulmonary artery. However, administration of prophylactic drugs to wild canids to prevent D. immitis infection is not feasible. Furthermore, a vaccine against heartworm is currently unavailable and drug resistant D. immitis have been identified, highlighting the need for new strategies to prevent parasite transmission. We recently established a method to block development of emerging third-stage larvae (eL3) from the mosquito Aedes aegypti by over-activating the Toll pathway, one of the major innate immune signaling pathways in mosquitoes. Our previous study used a drug-sensitive strain of D. immitis and it remains unknown if the strategy is effective against different D. immitis genotypes and, more importantly, if it would work against drug-resistant genotypes. The purpose of this study was to determine whether Toll pathway activation is capable of blocking eL3 development of D. immitis strains that are resistant to macrocyclic lactones. We infected mosquitoes with two independent strains of D. immitis previously confirmed as being resistant to macrocyclic lactones, and then activated Toll signaling by RNAi-mediated silencing of the pathway inhibitor, IκB/Cactus, and quantitatively measured eL3 development. Similar to the drug-sensitive strain, eL3 were strongly reduced by Toll activation in both drug-resistant strains. Furthermore, similar to the drug-sensitive strain, the reduction of eL3 in both drug-resistant strains suggests a defect in larval invasion of, or development in, the Malpighian tubules - the organ in the mosquito to which microfilariae migrate after ingestion and where the larvae undergo several developmental molts. In summary, Toll pathway activation blocks the development of three distinct D. immitis genotypes, including two different drug-resistant genotypes. If this strategy can be applied to heartworm vectors in the field, it may help reduce the spread of disease and is not predicted to favor the spread of drug resistance., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

4. Evaluation of the larval migration inhibition assay for detecting macrocyclic lactone resistance in Dirofilaria immitis.

Author

Evans CC, Moorhead AR, Storey BE, Blagburn BL, Wolstenholme AJ, and Kaplan RM

Subjects

Animals, Biological Assay, Larva drug effects, Anthelmintics pharmacology, Dirofilaria immitis drug effects, Ivermectin analogs & derivatives, Ivermectin pharmacology

Abstract

Anthelmintics of the macrocyclic lactone (ML) drug class are widely used as preventives against the canine heartworm (Dirofilaria immitis). Over the past several years, however, reports of ML lack of efficacy (LOE) have emerged, in which dogs develop mature heartworm infection despite the administration of monthly prophylactics. More recently, isolates from LOE cases have been used to infect laboratory dogs and the resistant phenotype has been confirmed by the establishment of adult worms in the face of ML treatment at normally preventive dosages. Testing for and monitoring resistance in D. immitis requires a validated biological or molecular diagnostic assay. In this study, we assessed a larval migration inhibition assay (LMIA) that we previously optimized for use with D. immitis third-stage larvae (L 3 ). We used this assay to measure the in vitro ML susceptibilities of a known-susceptible laboratory strain of D. immitis and three highly suspected ML-resistant isolates originating from three separate LOE cases; progeny from two of these isolates have been confirmed ML-resistant by treatment of an infected dog in a controlled setting. A nonlinear regression model was fit to the dose-response data, from which IC 50 values were calculated. The D. immitis LMIA yielded consistent and reproducible dose-response data; however, no statistically significant differences in drug susceptibility were observed between control and LOE parasites. Additionally, the drug concentrations needed to paralyze the L 3 were much higher than those third- and fourth-stage larvae would experience in vivo. IC 50 values ranged from 1.57 to 5.56μM (p≥0.19). These data could suggest that ML resistance in this parasite is not mediated through a reduced susceptibility of L 3 to the paralytic effects of ML drugs, and therefore motility-based assays are likely not appropriate for measuring the effects of MLs against D. immitis in this target stage., (Published by Elsevier B.V.)

Published

2017

5. Does evaluation of in vitro microfilarial motility reflect the resistance status of Dirofilaria immitis isolates to macrocyclic lactones?

Author

Maclean MJ, Savadelis MD, Coates R, Dzimianski MT, Jones C, Benbow C, Storey BE, Kaplan RM, Moorhead AR, and Wolstenholme AJ

Subjects

Animals, Dirofilaria immitis isolation & purification, Dirofilaria immitis physiology, Dogs, Microfilariae isolation & purification, Microfilariae physiology, Dirofilaria immitis drug effects, Dirofilariasis parasitology, Dog Diseases parasitology, Drug Resistance, Filaricides pharmacology, Ivermectin pharmacology, Microfilariae drug effects, Pyrantel pharmacology

Abstract

Background: Several reports have confirmed that macrocyclic lactone-resistant isolates of Dirofilaria immitis are circulating in the United States; however, the prevalence and potential impact of drug resistance is unknown. We wished to assess computer-aided measurements of motility as a method for rapidly assessing the resistance status of parasite isolates., Methods: Blood containing microfilariae (MF) from two clinical cases with a high suspicion of resistance was fed to mosquitoes and the resultant L3 injected into dogs that were then treated with six doses of Heartgard® Plus (ivermectin + pyrantel; Merial Limited) at 30-day intervals. In both cases patent heartworm infections resulted despite the preventive treatment. Microfilariae isolated from these dogs and other isolates of known resistance status were exposed to varying concentrations of ivermectin in vitro and their motility assessed 24 h later using computer-processed high-definition video imaging., Results: We produced two isolates, Yazoo-2013 and Metairie-2014, which established patent infections despite Heartgard® Plus treatments. Measurements of the motility of MF of these and other isolates (Missouri, MP3 and JYD-27) following exposure to varying concentrations of ivermectin did not distinguish between susceptible and resistant heartworm populations. There was some evidence that the method of MF isolation had an influence on the motility and drug susceptibility of the MF., Conclusions: We confirmed that drug-resistant heartworms are circulating in the southern United States, but that motility measurements in the presence of ivermectin are not a reliable method for their detection. This implies that the drug does not kill the microfilariae via paralysis.

Published

2017

6. A diagnostic algorithm for evaluating cases of potential macrocyclic lactone-resistant heartworm.

Author

Moorhead AR, Evans CC, and Kaplan RM

Subjects

Algorithms, Animals, Dirofilaria immitis isolation & purification, Dirofilaria immitis physiology, Dirofilariasis diagnosis, Dirofilariasis drug therapy, Dog Diseases diagnosis, Dog Diseases drug therapy, Dogs, Drug Resistance, Filaricides chemistry, Lactones chemistry, Dirofilaria immitis drug effects, Dirofilariasis parasitology, Dog Diseases parasitology, Filaricides pharmacology, Lactones pharmacology

Abstract

Background: The emergence of macrocyclic lactone resistance in canine heartworm poses a substantial threat to what is currently the only effective, FDA-approved available method of prevention. Further study of the biotypes is necessary to understand the mechanism of resistance and evaluate novel prevention options. Identifying cases of drug-resistant infection remains problematic, however, especially when poor compliance and insufficient testing are concerns. Furthermore, a definitive demonstration of resistance requires experimental infection and treatment, which is prohibitively costly., Methods: With the aim of identifying likely cases of macrocyclic lactone-resistant heartworm and preventing their continued spread, we describe an algorithm for determining the likelihood of drug resistance and appropriate treatment strategies for each case., Results: This algorithm relies on the microfilarial suppression test (MFST), which has been used previously as an efficient and discrete measure of suspected resistance. By standardizing this method in a format that is readily available to practitioners, it could become possible to preliminarily survey the emergence and spread of resistance., Conclusion: Heartworm isolates identified through this method can be used in research to better understand macrocyclic lactone resistance so prevention strategies can be adapted.

Published

2017

7. A statistical approach for evaluating the effectiveness of heartworm preventive drugs: what does 100% efficacy really mean?

Author

Vidyashankar AN, Jimenez Castro PD, and Kaplan RM

Subjects

Animals, Biometry, Dirofilaria immitis physiology, Dirofilariasis parasitology, Dog Diseases parasitology, Dogs, Drug Evaluation, Macrolides administration & dosage, Treatment Outcome, Dirofilaria immitis drug effects, Dirofilariasis prevention & control, Dog Diseases prevention & control, Filaricides administration & dosage

Abstract

Background: Initial studies of heartworm preventive drugs all yielded an observed efficacy of 100% with a single dose, and based on these data the US Food and Drug Administration (FDA) required all products to meet this standard for approval. Those initial studies, however, were based on just a few strains of parasites, and therefore were not representative of the full assortment of circulating biotypes. This issue has come to light in recent years, where it has become common for studies to yield less than 100% efficacy. This has changed the landscape for the testing of new products because heartworm efficacy studies lack the statistical power to conclude that finding zero worms is different from finding a few worms., Methods: To address this issue, we developed a novel statistical model, based on a hierarchical modeling and parametric bootstrap approach that provides new insights to assess multiple sources of variability encountered in heartworm drug efficacy studies. Using the newly established metrics we performed both data simulations and analyzed actual experimental data., Results: Our results suggest that an important source of modeling variability arises from variability in the parasite establishment rate between dogs; not accounting for this can overestimate the efficacy in more than 40% of cases. We provide strong evidence that ZoeMo-2012 and JYD-34, which both were established from the same source dog, have differing levels of susceptibility to moxidectin. In addition, we provide strong evidence that the differences in efficacy seen in two published studies using the MP3 strain were not due to randomness, and thus must be biological in nature., Conclusion: Our results demonstrate how statistical modeling can improve the interpretation of data from heartworm efficacy studies by providing a means to identify the true efficacy range based on the observed data. Importantly, these new insights should help to inform regulators on how to move forward in establishing new statistically and scientifically valid requirements for efficacy in the registration of new heartworm preventative products. Furthermore, our results provide strong evidence that heartworm 'strains' can change their susceptibility phenotype over short periods of time, providing further evidence that a wide diversity of susceptibility phenotypes exists among naturally circulating biotypes of D. immitis.

Published

2017

8. Ivermectin-dependent attachment of neutrophils and peripheral blood mononuclear cells to Dirofilaria immitis microfilariae in vitro.

Author

Vatta AF, Dzimianski M, Storey BE, Camus MS, Moorhead AR, Kaplan RM, and Wolstenholme AJ

Subjects

Animals, Antiparasitic Agents pharmacology, Dogs, Immune System drug effects, Immune System parasitology, Leukocytes, Mononuclear drug effects, Dirofilaria immitis drug effects, Dirofilaria immitis metabolism, Host-Parasite Interactions drug effects, Ivermectin pharmacology, Leukocytes, Mononuclear parasitology, Microfilariae metabolism, Neutrophils drug effects, Neutrophils parasitology

Abstract

The macrocyclic lactones are the only anthelmintics used to prevent heartworm disease, but it is very difficult to reproduce their in vivo efficacy against Dirofilaria immitis larvae in experiments in vitro. These assays typically measure motility, suggesting that paralysis is not the mode of action of the macrocyclic lactones against D. immitis. We isolated peripheral blood mononuclear cells (PBMC) and neutrophils from uninfected dogs and measured their adherence to D. immitis microfilariae in the presence of varying concentrations of ivermectin. We found that adherence of PBMC to the microfilariae was increased in the presence of ivermectin concentrations ≥100 nM and adherence of neutrophils was increased in drug concentrations ≥10 nM. Up to 50% of microfilariae had adherent PBMC in the presence of the drug, and binding was maximal after 40 h incubation. Neutrophil adherence was maximal after 16 h, with approximately 20% of the microfilariae having at least one cell adhered to them. Adherent neutrophils showed morphological evidence of activation. These results are consistent with a model in which the macrocyclic lactones interfere with the parasites ability to evade the host's innate immune system., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2014

9. Utilization of computer processed high definition video imaging for measuring motility of microscopic nematode stages on a quantitative scale: “The Worminator”.

Author

Storey, Bob, Marcellino, Chris, Miller, Melissa, Maclean, Mary, Mostafa, Eman, Howell, Sue, Sakanari, Judy, Wolstenholme, Adrian, and Kaplan, Ray

Abstract

A major hindrance to evaluating nematode populations for anthelmintic resistance, as well as for screening existing drugs, new compounds, or bioactive plant extracts for anthelmintic properties, is the lack of an efficient, objective, and reproducible in vitro assay that is adaptable to multiple life stages and parasite genera. To address this need we have developed the “Worminator” system, which objectively and quantitatively measures the motility of microscopic stages of parasitic nematodes. The system is built around the computer application “WormAssay”, developed at the Center for Discovery and Innovation in Parasitic Diseases at the University of California, San Francisco. WormAssay was designed to assess motility of macroscopic parasites for the purpose of high throughput screening of potential anthelmintic compounds, utilizing high definition video as an input to assess motion of adult stage (macroscopic) parasites (e.g. Brugia malayi ). We adapted this assay for use with microscopic parasites by modifying the software to support a full frame analysis mode that applies the motion algorithm to the entire video frame. Thus, the motility of all parasites in a given well are recorded and measured simultaneously. Assays performed on third-stage larvae (L3) of the bovine intestinal nematode Cooperia spp., as well as microfilariae (mf) of the filarioid nematodes B. malayi and Dirofilaria immitis , yielded reproducible dose responses using the macrocyclic lactones ivermectin, doramectin, and moxidectin, as well as the nicotinic agonists, pyrantel, oxantel, morantel, and tribendimidine. This new computer based-assay is simple to use, requires minimal new investment in equipment, is robust across nematode genera and developmental stage, and does not require subjective scoring of motility by an observer. Thus, the “Worminator” provides a relatively low-cost platform for developing genera- and stage-specific assays with high efficiency and reproducibility, low labor input, and yields objective motility data that is not subject to scorer bias. [ABSTRACT FROM AUTHOR]

Published

2014

10. Development of an in vitro bioassay for measuring susceptibility to macrocyclic lactone anthelmintics in Dirofilaria immitis.

Author

Evans, Christopher C., Moorhead, Andrew R., Storey, Bobby E., Wolstenholme, Adrian J., and Kaplan, Ray M.

Abstract

Highlights: [•] We optimized a larval migration inhibition assay for use with Dirofilaria immitis. [•] Consistent and reproducible dose–response data were generated. [•] High control migration rates (>90%) were observed. [•] The IC50 is the preferred parameter for this assay. [•] IC50 and IC95 values were better defined with eprinomectin than ivermectin. [Copyright &y& Elsevier]

Published

2013

11. Drug Resistance in Filarial Parasites Does Not Affect Mosquito Vectorial Capacity.

Author

Neff, Erik, Evans, Christopher C., Jimenez Castro, Pablo D., Kaplan, Ray M., and Dharmarajan, Guha

Subjects

AEDES aegypti, DIROFILARIA immitis, MOSQUITOES, DRUG resistance, PARASITES, MOSQUITO vectors, VECTOR-borne diseases

Abstract

Parasite drug resistance presents a major obstacle to controlling and eliminating vector-borne diseases affecting humans and animals. While vector-borne disease dynamics are affected by factors related to parasite, vertebrate host and vector, research on drug resistance in filarial parasites has primarily focused on the parasite and vertebrate host, rather than the mosquito. However, we expect that the physiological costs associated with drug resistance would reduce the fitness of drug-resistant vs. drug-susceptible parasites in the mosquito wherein parasites are not exposed to drugs. Here we test this hypothesis using four isolates of the dog heartworm (Dirofilaria immitis)—two drug susceptible and two drug resistant—and two vectors—the yellow fever mosquito (Aedes aegypti) and the Asian tiger mosquito (Ae. albopictus)—as our model system. Our data indicated that while vector species had a significant effect on vectorial capacity, there was no significant difference in the vectorial capacity of mosquitoes infected with drug-resistant vs. drug-susceptible parasites. Consequently, contrary to expectations, our data indicate that drug resistance in D. immitis does not appear to reduce the transmission efficiency of these parasites, and thus the spread of drug-resistant parasites in the vertebrate population is unlikely to be mitigated by reduced fitness in the mosquito vector. [ABSTRACT FROM AUTHOR]

Published

2021

12. Owner Understanding of Hear tworm.

Author

Kaplan, Ray M.

Subjects

DIROFILARIA immitis, ANIMAL diseases, MOSQUITO vectors, DISEASE vectors, VETERINARY hospitals, PET owners

Published

2019