Your search keyword '"Manuneedhi Cholan P"' showing total 11 results

1. Adaptation to an amoeba host drives selection of virulence-associated traits in Vibrio cholerae

Author

Hoque, M. Mozammel, Noorian, Parisa, Espinoza-Vergara, Gustavo, Manuneedhi Cholan, Pradeep, Kim, Mikael, Rahman, Md Hafizur, Labbate, Maurizio, Rice, Scott A., Pernice, Mathieu, Oehlers, Stefan H., and McDougald, Diane

Published

2022

2. Rough and smooth variants of Mycobacterium abscessus are differentially controlled by host immunity during chronic infection of adult zebrafish

Author

Kam, Julia Y., Hortle, Elinor, Krogman, Elizabeth, Warner, Sherridan E., Wright, Kathryn, Luo, Kaiming, Cheng, Tina, Manuneedhi Cholan, Pradeep, Kikuchi, Kazu, Triccas, James A., Britton, Warwick J., Johansen, Matt D., Kremer, Laurent, and Oehlers, Stefan H.

Published

2022

3. Abstract 597: TRAIL-TRAIL-R Ligation Regulates EC-pericyte Crosstalk To Generate Stable Microvessel Networks In Ischemia

Author

Cartland, SP, Patil, M, Boccanfuso, L, Kelland, E, Patrick, R, Manuneedhi Cholan, P, Su, P, Alwis, I, Ganss, R, Harvey, RP, Griffith, TS, Powell, J, Patel, S, Kavurma, MM, Cartland, SP, Patil, M, Boccanfuso, L, Kelland, E, Patrick, R, Manuneedhi Cholan, P, Su, P, Alwis, I, Ganss, R, Harvey, RP, Griffith, TS, Powell, J, Patel, S, and Kavurma, MM

Abstract

Endothelial cell EC pericyte crosstalk is essential for generating stable capillary networks Capillary function and development is disrupted in CVD and processes mediating this are poorly understood TNF related apoptosis inducing ligand TRAIL stimulates blood vessel development in pre clinical models while circulating levels are suppressed in CVD patients The contribution of EC specific TRAIL to angiogenesis in ischemia is unknown To address this an EC specific TRAIL knockout Trail EC was generated Compared to Trail EC Trail EC mice had 60 reduction in plasma TRAIL revealing the endothelium as a significant source of TRAIL in the healthy circulation Angiogenesis was quantified in the Matrigel plug aortic sprouting and hindlimb ischemia HLI models EC pericyte content in plugs were 50 60 less in Trail EC than Trail EC mice with a 50 reduction in mRNA expression of angiogenesis pericyte markers Trail EC aortic segments had reduced microvascular sprouts in hypoxia and ECs lacking TRAIL had an impaired ability to form tubules and recruit pericytes CD31 SMA microvessel numbers measure of EC pericyte interaction were significantly reduced in Trail EC ischemic limbs associating with decreased expression of pericyte markers and 50 reduction in blood perfusion Similar findings were observed in Trail receptor Trail R mice In contrast administration of an agonistic anti mouse TRAIL R mAb MD5 1 restored blood perfusion and increased EC pericyte content in ischaemic Trail EC limbs MD5 1 also stimulated aortic sprouts scRNA seq data identified 5 EC clusters 2 of which were markedly altered in Trail EC but not in Trail EC ischemic limbs and multiple EC pericyte interactions dependent on TRAIL were identified In humans TRAIL induces apoptosis through TRAIL R1 and TRAIL R2 Importantly TRAIL and TRAIL R2 mRNA and cell surface expression was augmented and TRAIL physically interacted with TRAIL R2 but not TRAIL R1 under hypoxic conditions These studies provide a novel pathway mediating

Published

2023

4. Rough and smooth variants of Mycobacterium abscessus are differentially controlled by host immunity during chronic infection of adult zebrafish.

Author

Kam, JY, Hortle, E, Krogman, E, Warner, SE, Wright, K, Luo, K, Cheng, T, Manuneedhi Cholan, P, Kikuchi, K, Triccas, JA, Britton, WJ, Johansen, MD, Kremer, L, Oehlers, SH, Kam, JY, Hortle, E, Krogman, E, Warner, SE, Wright, K, Luo, K, Cheng, T, Manuneedhi Cholan, P, Kikuchi, K, Triccas, JA, Britton, WJ, Johansen, MD, Kremer, L, and Oehlers, SH

Abstract

Prevalence of Mycobacterium abscessus infections is increasing in patients with respiratory comorbidities. After initial colonisation, M. abscessus smooth colony (S) variants can undergo an irreversible genetic switch into highly inflammatory, rough colony (R) variants, often associated with a decline in pulmonary function. Here, we use an adult zebrafish model of chronic infection with R and S variants to study M. abscessus pathogenesis in the context of fully functioning host immunity. We show that infection with an R variant causes an inflammatory immune response that drives necrotic granuloma formation through host TNF signalling, mediated by the tnfa, tnfr1 and tnfr2 gene products. T cell-dependent immunity is stronger against the R variant early in infection, and regulatory T cells associate with R variant granulomas and limit bacterial growth. In comparison, an S variant proliferates to high burdens but appears to be controlled by TNF-dependent innate immunity early during infection, resulting in delayed granuloma formation. Thus, our work demonstrates the applicability of adult zebrafish to model persistent M. abscessus infection, and illustrates differences in the immunopathogenesis induced by R and S variants during granulomatous infection.

Published

2022

5. Adaptation to an amoeba host drives selection of virulence-associated traits in Vibrio cholerae

Author

Hoque, MM, Noorian, P, Espinoza-Vergara, G, Manuneedhi Cholan, P, Kim, M, Rahman, MH, Labbate, M, Rice, SA, Pernice, M, Oehlers, SH, and McDougald, D

Subjects

parasitic diseases, 05 Environmental Sciences, 06 Biological Sciences, 10 Technology, Microbiology

Abstract

Predation by heterotrophic protists drives the emergence of adaptive traits in bacteria, and often these traits lead to altered interactions with hosts and persistence in the environment. Here we studied adaptation of the cholera pathogen, Vibrio cholerae during long-term co-incubation with the protist host, Acanthamoeba castellanii. We determined phenotypic and genotypic changes associated with long-term intra-amoebal host adaptation and how this impacts pathogen survival and fitness. We showed that adaptation to the amoeba host leads to temporal changes in multiple phenotypic traits in V. cholerae that facilitate increased survival and competitive fitness in amoeba. Genome sequencing and mutational analysis revealed that these altered lifestyles were linked to non-synonymous mutations in conserved regions of the flagellar transcriptional regulator, flrA. Additionally, the mutations resulted in enhanced colonisation in zebrafish, establishing a link between adaptation of V. cholerae to amoeba predation and enhanced environmental persistence. Our results show that pressure imposed by amoeba on V. cholerae selects for flrA mutations that serves as a key driver for adaptation. Importantly, this study provides evidence that adaptive traits that evolve in pathogens in response to environmental predatory pressure impact the colonisation of eukaryotic organisms by these pathogens.

Published

2021

6. Exposure to the gut microbiota from cigarette smoke-exposed mice exacerbates cigarette smoke extract-induced inflammation in zebrafish larvae

Author

Morris, Simone, Wright, Kathryn, Malyla, Vamshikrishna, Britton, Warwick J., Hansbro, Philip M., Manuneedhi Cholan, Pradeep, and Oehlers, Stefan H.

Abstract

Cigarette smoke (CS)-induced inflammation leads to a range of diseases including chronic obstructive pulmonary disease and cancer. The gut microbiota is a major modifying environmental factor that determine the severity of cigarette smoke-induced pathology. Microbiomes and metabolites from CS-exposed mice exacerbate lung inflammation via the gut-lung axis of shared mucosal immunity in mice but these systems are expensive to establish and analyse. Zebrafish embryos and larvae have been used to model the effects of cigarette smoking on a range of physiological processes and offer an amenable platform for screening modifiers of cigarette smoke-induced pathologies with key features of low cost and rapid visual readouts. Here we exposed zebrafish larvae to cigarette smoke extract (CSE) and characterised a CSE-induced leukocytic inflammatory phenotype with increased neutrophilic and macrophage inflammation in the gut. The CSE-induced phenotype was exacerbated by co-exposure to microbiota from the faeces of CS-exposed mice, but not control mice. Microbiota could be recovered from the gut of zebrafish and studied in isolation in a screening setting. This demonstrates the utility of the zebrafish-CSE exposure platform for identifying environmental modifiers of cigarette smoking-associated pathology and demonstrates that the CS-exposed mouse gut microbiota potentiates the inflammatory effects of CSE across host species.

Published

2021

7. Transplantation of high fat fed mouse microbiota into zebrafish larvae identifies MyD88-dependent acceleration of hyperlipidaemia by Gram-positive cell wall components.

Author

Manuneedhi Cholan P, Morris S, Luo K, Chen J, Boland JA, McCaughan GW, Britton WJ, and Oehlers SH

Subjects

Acceleration, Animals, Cell Wall, Diet, High-Fat adverse effects, Larva, Mammals, Mice, Myeloid Differentiation Factor 88 genetics, Myeloid Differentiation Factor 88 pharmacology, Zebrafish genetics, Zebrafish microbiology, Zebrafish Proteins pharmacology, Hyperlipidemias genetics, Microbiota

Abstract

Gut dysbiosis is an important modifier of pathologies including cardiovascular disease but our understanding of the role of individual microbes is limited. Here, we have used transplantation of mouse microbiota into microbiota-deficient zebrafish larvae to study the interaction between members of a mammalian high fat diet-associated gut microbiota with a lipid rich diet challenge in a tractable model species. We find zebrafish larvae are more susceptible to hyperlipidaemia when exposed to the mouse high fat-diet-associated microbiota and that this effect can be driven by two individual bacterial species fractionated from the mouse high fat-diet-associated microbiota. We find Stenotrophomonas maltophilia increases the hyperlipidaemic potential of chicken egg yolk to zebrafish larvae independent of direct interaction between S. maltophilia and the zebrafish host. Colonization by live, or exposure to heat-killed, Enterococcus faecalis accelerates hyperlipidaemia via host MyD88 signaling. The hyperlipidaemic effect is replicated by exposure to the Gram-positive toll-like receptor agonists peptidoglycan and lipoteichoic acid in a MyD88-dependent manner. In this work, we demonstrate the applicability of zebrafish as a tractable host for the identification of gut microbes that can induce conditional host phenotypes via microbiota transplantation and subsequent challenge with a high fat diet., (© 2021 International Union of Biochemistry and Molecular Biology.)

Published

2022

8. HDL Improves Cholesterol and Glucose Homeostasis and Reduces Atherosclerosis in Diabetes-Associated Atherosclerosis.

Author

Di Bartolo BA, Cartland SP, Genner S, Manuneedhi Cholan P, Vellozzi M, Rye KA, and Kavurma MM

Subjects

ATP Binding Cassette Transporter 1 genetics, ATP Binding Cassette Transporter 1 metabolism, ATP Binding Cassette Transporter, Subfamily G, Member 1 genetics, ATP Binding Cassette Transporter, Subfamily G, Member 1 metabolism, Animals, Apolipoprotein A-I administration & dosage, Atherosclerosis blood, Atherosclerosis genetics, Biomarkers blood, Blood Glucose metabolism, Diabetes Mellitus blood, Diet, Western, Disease Models, Animal, Dyslipidemias blood, Dyslipidemias genetics, Homeostasis, Humans, Macrophages drug effects, Macrophages metabolism, Male, Mice, Knockout, ApoE, Phosphatidylcholines administration & dosage, Plaque, Atherosclerotic, TNF-Related Apoptosis-Inducing Ligand genetics, TNF-Related Apoptosis-Inducing Ligand metabolism, Mice, Anticholesteremic Agents administration & dosage, Atherosclerosis drug therapy, Blood Glucose drug effects, Cholesterol blood, Diabetes Mellitus drug therapy, Dyslipidemias drug therapy, Hypoglycemic Agents administration & dosage, Lipoproteins, HDL administration & dosage

Abstract

Background and Aims: Apolipoprotein A-I (ApoA-I), the main component of high-density lipoprotein (HDL), not only promotes reverse cholesterol transport (RCT) in atherosclerosis but also increases insulin secretion in pancreatic β -cells, suggesting that interventions which raise HDL levels may be beneficial in diabetes-associated cardiovascular disease (CVD). Previously, we showed that TNF-related apoptosis-inducing ligand (TRAIL) deletion in Apolipoprotein E knockout ( Apoe -/- ) mice results in diabetes-accelerated atherosclerosis in response to a "Western" diet. Here, we sought to identify whether reconstituted HDL (rHDL) could improve features of diabetes-associated CVD in Trail -/- Apoe -/- mice., Methods and Results: Trail -/- Apoe -/- and Apoe -/- mice on a "Western" diet for 12 weeks received 3 weekly infusions of either PBS (vehicle) or rHDL (containing ApoA-I (20 mg/kg) and 1-palmitoyl-2-linoleoyl phosphatidylcholine). Administration of rHDL reduced total plasma cholesterol, triglyceride, and glucose levels in Trail -/- Apoe -/- but not in Apoe -/- mice, with no change in weight gain observed. rHDL treatment also improved glucose clearance in response to insulin and glucose tolerance tests. Immunohistological analysis of pancreata revealed increased insulin expression/production and a reduction in macrophage infiltration in mice with TRAIL deletion. Furthermore, atherosclerotic plaque size in Trail -/- Apoe -/- mice was significantly reduced associating with increased expression of the M2 macrophage marker CD206, suggesting HDL's involvement in the polarization of macrophages. rHDL also increased vascular mRNA expression of RCT transporters, ABCA1 and ABCG1, in Trail -/- Apoe -/- but not in Apoe -/- mice . Conclusions . rHDL improves features of diabetes-associated atherosclerosis in mice. These findings support the therapeutic potential of rHDL in the treatment of atherosclerosis and associated diabetic complications. More studies are warranted to understand rHDL's mechanism of action., Competing Interests: The authors declare no conflicts of interest., (Copyright © 2021 Belinda A. Di Bartolo et al.)

Published

2021

9. TRAIL-Expressing Monocyte/Macrophages Are Critical for Reducing Inflammation and Atherosclerosis.

Author

Cartland SP, Genner SW, Martínez GJ, Robertson S, Kockx M, Lin RC, O'Sullivan JF, Koay YC, Manuneedhi Cholan P, Kebede MA, Murphy AJ, Masters S, Bennett MR, Jessup W, Kritharides L, Geczy C, Patel S, and Kavurma MM

Abstract

Circulating tumor necrosis factor (TNF)-related apoptosis-inducing ligand (TRAIL) levels are reduced in patients with cardiovascular disease, and TRAIL gene deletion in mice exacerbates atherosclerosis and inflammation. How TRAIL protects against atherosclerosis and why levels are reduced in disease is unknown. Here, multiple strategies were used to identify the protective source of TRAIL and its mechanism(s) of action. Samples from patients with coronary artery disease and bone-marrow transplantation experiments in mice lacking TRAIL revealed monocytes/macrophages as the main protective source. Accordingly, deletion of TRAIL caused a more inflammatory macrophage with reduced migration, displaying impaired reverse cholesterol efflux and efferocytosis. Furthermore, interleukin (IL)-18, commonly increased in plasma of patients with cardiovascular disease, negatively regulated TRAIL transcription and gene expression, revealing an IL-18-TRAIL axis. These findings demonstrate that TRAIL is protective of atherosclerosis by modulating monocyte/macrophage phenotype and function. Manipulating TRAIL levels in these cells highlights a different therapeutic avenue in the treatment of cardiovascular disease., (Copyright © 2019 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2019

10. TRAIL protects against endothelial dysfunction in vivo and inhibits angiotensin-II-induced oxidative stress in vascular endothelial cells in vitro.

Author

Manuneedhi Cholan P, Cartland SP, Dang L, Rayner BS, Patel S, Thomas SR, and Kavurma MM

Subjects

Aldehydes metabolism, Angiotensin II genetics, Angiotensin II metabolism, Animals, Apolipoproteins E genetics, Atherosclerosis metabolism, Atherosclerosis pathology, Diet, High-Fat adverse effects, Endothelial Cells metabolism, Endothelial Cells pathology, Humans, Mice, Nitric Oxide Synthase Type III genetics, Reactive Oxygen Species metabolism, TNF-Related Apoptosis-Inducing Ligand administration & dosage, Vascular Cell Adhesion Molecule-1 genetics, Atherosclerosis genetics, Oxidative Stress genetics, TNF-Related Apoptosis-Inducing Ligand metabolism, Vasodilation genetics

Abstract

The vascular endothelium is critical for maintenance of cardiovascular homeostasis. Endothelial dysfunction is a key event of atherosclerosis, with oxidative stress mediated by reactive oxygen species (ROS) playing a major role. Tumour necrosis factor (TNF)-related apoptosis-inducing ligand (TRAIL) is increasingly recognised to play a protective role in atherosclerosis, however the molecular mechanisms by which it exerts its beneficial effects are unclear. Here we examined if TRAIL could attenuate vascular oxidative stress and improve endothelial cell (EC) function. In coronary artery disease patients, plasma TRAIL levels were significantly reduced compared to healthy individuals, and negatively correlated with the levels of circulating 8-iso Prostaglandin F 2α , a marker of in vivo oxidative stress. In vivo, high-fat fed, atherosclerotic Trail -/- Apoe -/- mice exhibited a significant impairment in endothelial-dependent vasorelaxation, which correlated with increased vascular ROS and 4-hydroxynonenal compared to Apoe -/- mice. Endothelial permeability measured by Evan's blue dye extravasation was increased in several organs of Trail -/- mice compared to wild-type mice, which correlated with a decrease in VE-cadherin expression. In vitro in ECs, angiotensin II (AngII)-induced ROS generation involving the mitochondria, NADPH oxidase-4 (NOX-4) and eNOS, was inhibited by pre-treatment with TRAIL. Furthermore, AngII-augmented VCAM-1 expression and monocyte adhesion to ECs was inhibited by TRAIL. Finally, AngII reduced VE-cadherin expression and redistributed this protein, all of which was brought back to baseline by TRAIL pre-treatment. These findings demonstrate for the first time that TRAIL protects against several forms of endothelial dysfunction involving its ability to control EC ROS generation. Understanding the role TRAIL plays in normal physiology and disease, may lead to potential new therapies to improve endothelial function and atherosclerosis., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018

11. NADPH Oxidases, Angiogenesis, and Peripheral Artery Disease.

Author

Manuneedhi Cholan P, Cartland SP, and Kavurma MM

Abstract

Peripheral artery disease (PAD) is caused by narrowing of arteries in the limbs, normally occurring in the lower extremities, with severe cases resulting in amputation of the foot or leg. A potential approach for treatment is to stimulate the formation of new blood vessels to restore blood flow to limb tissues. This is a process called angiogenesis and involves the proliferation, migration, and differentiation of endothelial cells. Angiogenesis can be stimulated by reactive oxygen species (ROS), with NADPH oxidases (NOX) being a major source of ROS in endothelial cells. This review summarizes the recent evidence implicating NOX isoforms in their ability to regulate angiogenesis in vascular endothelial cells in vitro, and in PAD in vivo. Increasing our understanding of the involvement of the NOX isoforms in promoting therapeutic angiogenesis may lead to new treatment options to slow or reverse PAD., Competing Interests: The authors declare no conflict of interest.

Published

2017