- Jiao, Yaqing, Preston, Sarah, Hofmann, Andreas, Taki, Aya, Baell, Jonathan, Chang, Bill, Jabbar, Abdul, Gasser, Robin
- Authors: Jiao, Yaqing , Preston, Sarah , Hofmann, Andreas , Taki, Aya , Baell, Jonathan , Chang, Bill , Jabbar, Abdul , Gasser, Robin
- Date: 2020
- Type: Text , Book chapter
- Relation: Advances in Parasitology p. 1-45
- Full Text: false
- Reviewed:
- Description: Parasitic roundworms (nematodes) cause substantial morbidity and mortality in animals worldwide. Anthelmintic treatment is central to controlling these worms, but widespread resistance to most of the commercially available anthelmintics for veterinary and agricultural use is compromising control, such that there is an urgency to discover new and effective drugs. The purpose of this article is to review information on parasitic nematodes, the treatment and control of parasitic nematode infections and aspects of discovering new anthelmintics in the context of anthelmintic resistance problems, and then to discuss some progress that our group has made in identifying selected compounds with activity against nematodes. The focus of our recent work has been on discovering new chemical entities and known drugs with anthelmintic activities against Haemonchus contortus as well as other socioeconomically important parasitic nematodes for subsequent development. Using whole worm-based phenotypic assays, we have been screening compound collections obtained via product-development-partnerships and/or collaborators, and active compounds have been assessed for their potential as anthelmintic candidates. Following the screening of 15,333 chemicals from five distinct compound collections against H. contortus, we have discovered one new chemical entity (designated SN00797439), two human kinase inhibitors (SNS-032 and AG-1295), 14 tetrahydroquinoxaline analogues, one insecticide (tolfenpyrad) and two tolfenpyrad (pyrazole-5-carboxamide) derivatives (a-15 and a-17) with anthelmintic activity in vitro. Some of these 20 ‘hit’ compounds have selectivity against H. contortus in vitro when compared to particular human cell lines. In our opinion, some of these compounds could represent starting points for ‘lead’ development. Accordingly, the next research steps to be pursued include: (i) chemical optimisation of representative chemicals via structure-activity relationship (SAR) evaluations; (ii) assessment of the breadth of spectrum of anthelmintic activity on a range of other parasitic nematodes, such as strongyloids, ascaridoids, enoplids and filarioids; (iii) detailed investigations of the absorption, distribution, metabolism, excretion and toxicity (ADMET) of optimised chemicals with broad nematocidal or nematostatic activity; and (iv) establishment of the modes of action of lead candidates. © 2020 Elsevier Ltd
- Ruan, Banfeng, Zhang, Yuezhou, Tadesse, Solomon, Preston, Sarah, Taki, Aya, Jabbar, Abdul, Hofmann, Andreas, Jiao, Yaqing, Garcia-Bustos, Jose, Harjani, Jitendra, Le, Thuy, Varghese, Swapna, Teguh, Silvia, Xie, Yiyue, Odiba, Jephthah, Hu, Min, Gasser, Robin, Baell, Jonathan
- Authors: Ruan, Banfeng , Zhang, Yuezhou , Tadesse, Solomon , Preston, Sarah , Taki, Aya , Jabbar, Abdul , Hofmann, Andreas , Jiao, Yaqing , Garcia-Bustos, Jose , Harjani, Jitendra , Le, Thuy , Varghese, Swapna , Teguh, Silvia , Xie, Yiyue , Odiba, Jephthah , Hu, Min , Gasser, Robin , Baell, Jonathan
- Date: 2020
- Type: Text , Journal article
- Relation: European Journal of Medicinal Chemistry Vol. 190, no. (2020), p.
- Full Text: false
- Reviewed:
- Description: Parasitic roundworms (nematodes) are significant pathogens of humans and animals and cause substantive socioeconomic losses due to the diseases that they cause. The control of nematodes in livestock animals relies heavily on the use of anthelmintic drugs. However, their extensive use has led to a widespread problem of drug resistance in these worms. Thus, the discovery and development of novel chemical entities for the treatment of parasitic worms of humans and animals is needed. Herein, we describe our medicinal chemistry optimization efforts of a phenotypic hit against Haemonchus contortus based on a pyrrolidine-oxadiazole scaffold. This led to the identification of compounds with potent inhibitory activities (IC50 = 0.78–22.4 μM) on the motility and development of parasitic stages of H. contortus, and which were found to be highly selective in a mammalian cell counter-screen. These compounds could be used as suitable chemical tools for drug target identification or as lead compounds for further optimization. © 2020 Elsevier Masson SAS
Novel 1-Methyl-1H-pyrazole-5-carboxamide derivatives with potent anthelmintic activity
- Le, Thuy, Kundu, Abhijit, Ghoshal, Atanu, Nguyen, Nghi, Preston, Sarah, Jiao, Yaqing, Ruan, Banfeng, Xue, Lian, Huang, Fei, Keiser, Jennifer, Hofmann, Andreas, Chang, Bill, Garcia-Bustos, Jose, Wells, Timothy, Palmer, Michael, Jabbar, Abdul, Gasser, Robin, Baell, Jonathan
- Authors: Le, Thuy , Kundu, Abhijit , Ghoshal, Atanu , Nguyen, Nghi , Preston, Sarah , Jiao, Yaqing , Ruan, Banfeng , Xue, Lian , Huang, Fei , Keiser, Jennifer , Hofmann, Andreas , Chang, Bill , Garcia-Bustos, Jose , Wells, Timothy , Palmer, Michael , Jabbar, Abdul , Gasser, Robin , Baell, Jonathan
- Date: 2019
- Type: Text , Journal article
- Relation: Journal of Medicinal Chemistry Vol. 62, no. 7 (2019), p. 3367-3380
- Full Text: false
- Reviewed:
- Description: A phenotypic screen of two different libraries of small molecules against the motility and development of the parasitic nematode Haemonchus contortus led to the identification of two 1-methyl-1H-pyrazole-5-carboxamide derivatives. Medicinal chemistry optimization targeted modifications of the left-hand side, middle section, and right-hand side of the hybrid structure of these two hits to elucidate the structure-activity relationship (SAR). Initial SAR around these hits allowed for the iterative and directed assembly of a focused set of 30 analogues of their hybrid structure. Compounds 10, 17, 20, and 22 were identified as the most potent compounds, inhibiting the development of the fourth larval (L4) stage of H. contortus at sub-nanomolar potencies while displaying strong selectivity toward the parasite when tested in vitro against the human MCF10A cell line. In addition, compounds 9 and 27 showed promising activity against a panel of other parasitic nematodes, including hookworms and whipworms.
- Le, Thuy, Kundu, Abhijit, Ghoshal, Atanu, Nguyen, Nghi, Preston, Sarah, Jiao, Yaqing, Ruan, Banfeng, Xue, Lian, Huang, Fei, Keiser, Jennifer, Hofmann, Andreas, Chang, Bill, Garcia-Bustos, Jose, Wells, Timothy, Palmer, Michael, Jabbar, Abdul, Gasser, Robin, Baell, Jonathan
- Authors: Le, Thuy , Kundu, Abhijit , Ghoshal, Atanu , Nguyen, Nghi , Preston, Sarah , Jiao, Yaqing , Ruan, Banfeng , Xue, Lian , Huang, Fei , Keiser, Jennifer , Hofmann, Andreas , Chang, Bill , Garcia-Bustos, Jose , Wells, Timothy , Palmer, Michael , Jabbar, Abdul , Gasser, Robin , Baell, Jonathan
- Date: 2019
- Type: Text , Journal article
- Relation: Journal of Medicinal Chemistry Vol. 62, no. 2 (2019), p. 1036-1053
- Full Text: false
- Reviewed:
- Description: Recently, we have discovered that the registered pesticide, tolfenpyrad, unexpectedly and potently inhibits the development of the L4 larval stage of the parasitic nematode Haemonchus contortus with an IC50 value of 0.03 mu M while displaying good selectivity, with an IC50 of 37.9 mu M for cytotoxicity. As a promising molecular template for medicinal chemistry optimization, we undertook anthelmintic structure-activity relationships for this chemical. Modifications of the left-hand side (LHS), right-hand side (RHS), and middle section of the scaffold were explored to produce a set of 57 analogues. Analogues 25, 29, and 33 were shown to be the most potent compounds of the series, with IC50 values at a subnanomolar level of potency against the chemotherapeutically relevant fourth larval (L4) stage of H. contortus. Selected compounds from the series also showed promising activity against a panel of other different parasitic nematodes, such as hookworms and whipworms.
- Le, Thuy, Kunda, Abhijit, Ghoshal, Atanu, Preston, Sarah, Jiao, Yaqing, Ruan, Banfeng, Xue, Lian, Huang, Fei, Keiser, Jennifer, Hofmann, Andreas, Chang, Bill, Garcia-Bustos, Jose, Jabbar, Abdul, Wells, Timothy, Palmer, Michael, Gasser, Robin, Baell, Jonathan
- Authors: Le, Thuy , Kunda, Abhijit , Ghoshal, Atanu , Preston, Sarah , Jiao, Yaqing , Ruan, Banfeng , Xue, Lian , Huang, Fei , Keiser, Jennifer , Hofmann, Andreas , Chang, Bill , Garcia-Bustos, Jose , Jabbar, Abdul , Wells, Timothy , Palmer, Michael , Gasser, Robin , Baell, Jonathan
- Date: 2018
- Type: Text , Journal article
- Relation: Journal of Medicinal Chemistry Vol. 61, no. 23 (2018), p. 10875-10894
- Full Text: false
- Reviewed:
- Description: A phenotypic screen of a diverse library of small molecules for inhibition of the development of larvae of the parasitic nematode Haemonchus contortus led to the identification of a 1-methyl-1H-pyrazole-5-carboxamide derivative with an IC
Proteomic identification of galectin-11 and 14 ligands from Haemonchus contortus
- Sakthivel, Dhanasekaran, Swan, Jaclyn, Preston, Sarah, Shakif-Azam, MD, Faou, Pierre, Jiao, Yaqing, Downs, Rachael, Rajapaksha, Harinda, Gasser, Robin, Piedrafita, David, Beddoe, Travis
- Authors: Sakthivel, Dhanasekaran , Swan, Jaclyn , Preston, Sarah , Shakif-Azam, MD , Faou, Pierre , Jiao, Yaqing , Downs, Rachael , Rajapaksha, Harinda , Gasser, Robin , Piedrafita, David , Beddoe, Travis
- Date: 2018
- Type: Text , Journal article
- Relation: Peerj Vol. 6, no. 3 (2018), p. 1-19
- Full Text:
- Reviewed:
- Description: Haemonchus contortus is the most pathogenic nematode of small ruminants. Infection in sheep and goats results in anaemia that decreases animal productivity and can ultimately cause death. The involvement of ruminant-specific galectin-11 (LGALS-11) and galectin-14 (LGALS-14) has been postulated to play important roles in protective immune responses against parasitic infection; however, their ligands are unknown. In the current study, LGALS-11 and LGALS-14 ligands in H. contortus were identified from larval (L4) and adult parasitic stages extracts using immobilised LGALS-11 and LGALS-14 affinity column chromatography and mass spectrometry. Both LGALS-11 and LGALS-14 bound more putative protein targets in the adult stage of H. contortus (43 proteins) when compared to the larval stage (two proteins). Of the 43 proteins identified in the adult stage, 34 and 35 proteins were bound by LGALS-11 and LGALS-14, respectively, with 26 proteins binding to both galectins. Interestingly, hematophagous stage-specific sperm-coating protein and zinc metalloprotease (M13), which are known vaccine candidates, were identified as putative ligands of both LGALS-11 and LGALS- 14. The identification of glycoproteins of H. contortus by LGALS-11 and LGALS-14 provide new insights into host-parasite interactions and the potential for developing new interventions.
- Authors: Sakthivel, Dhanasekaran , Swan, Jaclyn , Preston, Sarah , Shakif-Azam, MD , Faou, Pierre , Jiao, Yaqing , Downs, Rachael , Rajapaksha, Harinda , Gasser, Robin , Piedrafita, David , Beddoe, Travis
- Date: 2018
- Type: Text , Journal article
- Relation: Peerj Vol. 6, no. 3 (2018), p. 1-19
- Full Text:
- Reviewed:
- Description: Haemonchus contortus is the most pathogenic nematode of small ruminants. Infection in sheep and goats results in anaemia that decreases animal productivity and can ultimately cause death. The involvement of ruminant-specific galectin-11 (LGALS-11) and galectin-14 (LGALS-14) has been postulated to play important roles in protective immune responses against parasitic infection; however, their ligands are unknown. In the current study, LGALS-11 and LGALS-14 ligands in H. contortus were identified from larval (L4) and adult parasitic stages extracts using immobilised LGALS-11 and LGALS-14 affinity column chromatography and mass spectrometry. Both LGALS-11 and LGALS-14 bound more putative protein targets in the adult stage of H. contortus (43 proteins) when compared to the larval stage (two proteins). Of the 43 proteins identified in the adult stage, 34 and 35 proteins were bound by LGALS-11 and LGALS-14, respectively, with 26 proteins binding to both galectins. Interestingly, hematophagous stage-specific sperm-coating protein and zinc metalloprotease (M13), which are known vaccine candidates, were identified as putative ligands of both LGALS-11 and LGALS- 14. The identification of glycoproteins of H. contortus by LGALS-11 and LGALS-14 provide new insights into host-parasite interactions and the potential for developing new interventions.
Assessing the anthelmintic activity of pyrazole-5-carboxamide derivatives against Haemonchus contortus
- Jiao, Yaqing, Preston, Sarah, Song, Hongjian, Jabbar, Abdul, Liu, Yuxiu, Baell, Jonathan, Hofmann, Andreas, Hutchinson, Dana, Wang, Tao, Koehler, Anson, Fisher, Gillian, Andrews, Katherine, Laleu, Benoit, Palmer, Michael, Burrows, Jeremy, Wells, Timothy, Wang, Qingmin, Gasser, Robin
- Authors: Jiao, Yaqing , Preston, Sarah , Song, Hongjian , Jabbar, Abdul , Liu, Yuxiu , Baell, Jonathan , Hofmann, Andreas , Hutchinson, Dana , Wang, Tao , Koehler, Anson , Fisher, Gillian , Andrews, Katherine , Laleu, Benoit , Palmer, Michael , Burrows, Jeremy , Wells, Timothy , Wang, Qingmin , Gasser, Robin
- Date: 2017
- Type: Text , Journal article
- Relation: Parasites and Vectors Vol. 10, no. 1 (2017), p. 1-7
- Full Text:
- Reviewed:
- Description: Background: In this study, we tested five series of pyrazole-5-carboxamide compounds (n = 55) for activity against parasitic stages of the nematode Haemonchus contortus (barber’s pole worm), one of the most pathogenic parasites of ruminants. Methods: In an optimised, whole-organism screening assay, using exsheathed third-stage (xL3) and fourth-stage (L4) larvae, we measured the inhibition of larval motility and development of H. contortus. Results: Amongst the 55 compounds, we identified two compounds (designated a-15 and a-17) that reproducibly inhibit xL3 motility as well as L4 motility and development, with IC50 values ranging between ~3.4 and 55.6 μM. We studied the effect of these two ‘hit’ compounds on mitochondrial function by measuring oxygen consumption. This assessment showed that xL3s exposed to each of these compounds consumed significantly less oxygen and had less mitochondrial activity than untreated xL3s, which was consistent with specific inhibition of complex I of the respiratory electron transport chain in arthropods. Conclusions: The present findings provide a sound basis for future work, aimed at identifying the targets of compounds a-15 and a-17 and establishing the modes of action of these chemicals in H. contortus. © 2017 The Author(s).
- Authors: Jiao, Yaqing , Preston, Sarah , Song, Hongjian , Jabbar, Abdul , Liu, Yuxiu , Baell, Jonathan , Hofmann, Andreas , Hutchinson, Dana , Wang, Tao , Koehler, Anson , Fisher, Gillian , Andrews, Katherine , Laleu, Benoit , Palmer, Michael , Burrows, Jeremy , Wells, Timothy , Wang, Qingmin , Gasser, Robin
- Date: 2017
- Type: Text , Journal article
- Relation: Parasites and Vectors Vol. 10, no. 1 (2017), p. 1-7
- Full Text:
- Reviewed:
- Description: Background: In this study, we tested five series of pyrazole-5-carboxamide compounds (n = 55) for activity against parasitic stages of the nematode Haemonchus contortus (barber’s pole worm), one of the most pathogenic parasites of ruminants. Methods: In an optimised, whole-organism screening assay, using exsheathed third-stage (xL3) and fourth-stage (L4) larvae, we measured the inhibition of larval motility and development of H. contortus. Results: Amongst the 55 compounds, we identified two compounds (designated a-15 and a-17) that reproducibly inhibit xL3 motility as well as L4 motility and development, with IC50 values ranging between ~3.4 and 55.6 μM. We studied the effect of these two ‘hit’ compounds on mitochondrial function by measuring oxygen consumption. This assessment showed that xL3s exposed to each of these compounds consumed significantly less oxygen and had less mitochondrial activity than untreated xL3s, which was consistent with specific inhibition of complex I of the respiratory electron transport chain in arthropods. Conclusions: The present findings provide a sound basis for future work, aimed at identifying the targets of compounds a-15 and a-17 and establishing the modes of action of these chemicals in H. contortus. © 2017 The Author(s).
Screening of the ‘Open Scaffolds’ collection from Compounds Australia identifies a new chemical entity with anthelmintic activities against different developmental stages of the barber's pole worm and other parasitic nematodes
- Preston, Sarah, Jiao, Yaqing, Baell, Jonathan, Keiser, Jennifer, Crawford, Simon, Koehler, Anson, Wang, Tao, Simpson, Moana, Kaplan, Ray, Cowley, Karla, Simpson, Kaylene, Hofmann, Andreas, Jabbar, Abdul, Gasser, Robin
- Authors: Preston, Sarah , Jiao, Yaqing , Baell, Jonathan , Keiser, Jennifer , Crawford, Simon , Koehler, Anson , Wang, Tao , Simpson, Moana , Kaplan, Ray , Cowley, Karla , Simpson, Kaylene , Hofmann, Andreas , Jabbar, Abdul , Gasser, Robin
- Date: 2017
- Type: Text , Journal article
- Relation: International Journal for Parasitology: Drugs and Drug Resistance Vol. 7, no. 3 (2017), p. 286-294
- Full Text:
- Reviewed:
- Description: The discovery and development of novel anthelmintic classes is essential to sustain the control of socioeconomically important parasitic worms of humans and animals. With the aim of offering novel, lead-like scaffolds for drug discovery, Compounds Australia released the ‘Open Scaffolds’ collection containing 33,999 compounds, with extensive information available on the physicochemical properties of these chemicals. In the present study, we screened 14,464 prioritised compounds from the ‘Open Scaffolds’ collection against the exsheathed third-stage larvae (xL3s) of Haemonchus contortus using recently developed whole-organism screening assays. We identified a hit compound, called SN00797439, which was shown to reproducibly reduce xL3 motility by ≥ 70%; this compound induced a characteristic, “coiled” xL3 phenotype (IC50 = 3.46–5.93 μM), inhibited motility of fourth-stage larvae (L4s; IC50 = 0.31–12.5 μM) and caused considerable cuticular damage to L4s in vitro. When tested on other parasitic nematodes in vitro, SN00797439 was shown to inhibit (IC50 = 3–50 μM) adults of Ancylostoma ceylanicum (hookworm) and first-stage larvae of Trichuris muris (whipworm) and eventually kill (>90%) these stages. Furthermore, this compound completely inhibited the motility of female and male adults of Brugia malayi (50–100 μM) as well as microfilariae of both B. malayi and Dirofilaria immitis (heartworm). Overall, these results show that SN00797439 acts against genetically (evolutionarily) distant parasitic nematodes i.e. H. contortus and A. ceylanicum [strongyloids] vs. B. malayi and D. immitis [filarioids] vs. T. muris [enoplid], and, thus, might offer a novel, lead-like scaffold for the development of a relatively broad-spectrum anthelmintic. Our future work will focus on assessing the activity of SN00797439 against other pathogens that cause neglected tropical diseases, optimising analogs with improved biological activities and characterising their targets. © 2017 The Authors
- Authors: Preston, Sarah , Jiao, Yaqing , Baell, Jonathan , Keiser, Jennifer , Crawford, Simon , Koehler, Anson , Wang, Tao , Simpson, Moana , Kaplan, Ray , Cowley, Karla , Simpson, Kaylene , Hofmann, Andreas , Jabbar, Abdul , Gasser, Robin
- Date: 2017
- Type: Text , Journal article
- Relation: International Journal for Parasitology: Drugs and Drug Resistance Vol. 7, no. 3 (2017), p. 286-294
- Full Text:
- Reviewed:
- Description: The discovery and development of novel anthelmintic classes is essential to sustain the control of socioeconomically important parasitic worms of humans and animals. With the aim of offering novel, lead-like scaffolds for drug discovery, Compounds Australia released the ‘Open Scaffolds’ collection containing 33,999 compounds, with extensive information available on the physicochemical properties of these chemicals. In the present study, we screened 14,464 prioritised compounds from the ‘Open Scaffolds’ collection against the exsheathed third-stage larvae (xL3s) of Haemonchus contortus using recently developed whole-organism screening assays. We identified a hit compound, called SN00797439, which was shown to reproducibly reduce xL3 motility by ≥ 70%; this compound induced a characteristic, “coiled” xL3 phenotype (IC50 = 3.46–5.93 μM), inhibited motility of fourth-stage larvae (L4s; IC50 = 0.31–12.5 μM) and caused considerable cuticular damage to L4s in vitro. When tested on other parasitic nematodes in vitro, SN00797439 was shown to inhibit (IC50 = 3–50 μM) adults of Ancylostoma ceylanicum (hookworm) and first-stage larvae of Trichuris muris (whipworm) and eventually kill (>90%) these stages. Furthermore, this compound completely inhibited the motility of female and male adults of Brugia malayi (50–100 μM) as well as microfilariae of both B. malayi and Dirofilaria immitis (heartworm). Overall, these results show that SN00797439 acts against genetically (evolutionarily) distant parasitic nematodes i.e. H. contortus and A. ceylanicum [strongyloids] vs. B. malayi and D. immitis [filarioids] vs. T. muris [enoplid], and, thus, might offer a novel, lead-like scaffold for the development of a relatively broad-spectrum anthelmintic. Our future work will focus on assessing the activity of SN00797439 against other pathogens that cause neglected tropical diseases, optimising analogs with improved biological activities and characterising their targets. © 2017 The Authors
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