Your search keyword '"Mithra Kumar"' showing total 12 results

1. Age-associated changes in lineage composition of the enteric nervous system regulate gut health and disease

Author

Subhash Kulkarni, Monalee Saha, Jared Slosberg, Alpana Singh, Sushma Nagaraj, Laren Becker, Chengxiu Zhang, Alicia Bukowski, Zhuolun Wang, Guosheng Liu, Jenna M Leser, Mithra Kumar, Shriya Bakhshi, Matthew J Anderson, Mark Lewandoski, Elizabeth Vincent, Loyal A Goff, and Pankaj Jay Pasricha

Subjects

enteric nervous system, peripheral neuroscience, mesoderm, neural crest, aging, maturation, Medicine, Science, Biology (General), QH301-705.5

Abstract

The enteric nervous system (ENS), a collection of neural cells contained in the wall of the gut, is of fundamental importance to gastrointestinal and systemic health. According to the prevailing paradigm, the ENS arises from progenitor cells migrating from the neural crest and remains largely unchanged thereafter. Here, we show that the lineage composition of maturing ENS changes with time, with a decline in the canonical lineage of neural-crest derived neurons and their replacement by a newly identified lineage of mesoderm-derived neurons. Single cell transcriptomics and immunochemical approaches establish a distinct expression profile of mesoderm-derived neurons. The dynamic balance between the proportions of neurons from these two different lineages in the post-natal gut is dependent on the availability of their respective trophic signals, GDNF-RET and HGF-MET. With increasing age, the mesoderm-derived neurons become the dominant form of neurons in the ENS, a change associated with significant functional effects on intestinal motility which can be reversed by GDNF supplementation. Transcriptomic analyses of human gut tissues show reduced GDNF-RET signaling in patients with intestinal dysmotility which is associated with reduction in neural crest-derived neuronal markers and concomitant increase in transcriptional patterns specific to mesoderm-derived neurons. Normal intestinal function in the adult gastrointestinal tract therefore appears to require an optimal balance between these two distinct lineages within the ENS.

Published

2023

2. Persistence of viral RNA in lymph nodes in ART-suppressed SIV/SHIV-infected Rhesus Macaques

Author

Anthony M. Cadena, John D. Ventura, Peter Abbink, Erica N. Borducchi, Hubert Tuyishime, Noe B. Mercado, Victoria Walker-Sperling, Mazuba Siamatu, Po-Ting Liu, Abishek Chandrashekar, Joseph P. Nkolola, Katherine McMahan, Nicole Kordana, Venous Hamza, Esther A. Bondzie, Emily Fray, Mithra Kumar, Stephanie Fischinger, Sally A. Shin, Mark G. Lewis, Robert F. Siliciano, Galit Alter, and Dan H. Barouch

Subjects

Science

Abstract

The existence of HIV reservoir and ongoing replication despite antiretroviral therapy (ART) represents a barrier for cure efforts. Here, using SIV/SHIV-infected rhesus macaque suppressed with ART for one year, the authors characterize multiple lymphoid and non-lymphoid tissues and show that while the viral reservoir exhibits a wide anatomic heterogeneity, persistent viral transcription is mainly restricted to secondary lymphoid organs.

Published

2021

3. HSF1 inhibition attenuates HIV-1 latency reversal mediated by several candidate LRAs In Vitro and Ex Vivo

Author

Robert F. Siliciano, Cynthia K Bullen, Peggy Kim, Janet D. Siliciano, Subul A. Beg, Jun Lai, Emily J. Fray, Carrie Hetzel, Andrew E. Timmons, Chao Yang, Weiwei Dai, Steven A. Yukl, Fengting Wu, Joel L. Pomerantz, and Mithra Kumar

Subjects

Multidisciplinary, biology, In vitro, Cell biology, chemistry.chemical_compound, chemistry, Mechanism of action, Cell culture, Ionomycin, biology.protein, medicine, Latency (engineering), medicine.symptom, HSF1, Protein kinase C, Caspase

Abstract

HIV-1 latency is a major barrier to cure. Identification of small molecules that destabilize latency and allow immune clearance of infected cells could lead to treatment-free remission. In vitro models of HIV-1 latency involving cell lines or primary cells have been developed for characterization of HIV-1 latency and high-throughput screening for latency-reversing agents (LRAs). We have shown that the majority of LRAs identified to date are relatively ineffective in cells from infected individuals despite activity in model systems. We show here that, for diverse LRAs, latency reversal observed in model systems involves a heat shock factor 1 (HSF1)-mediated stress pathway. Small-molecule inhibition of HSF1 attenuated HIV-1 latency reversal by histone deactylase inhibitors, protein kinase C agonists, and proteasome inhibitors without interfering with the known mechanism of action of these LRAs. However, latency reversal by second mitochondria-derived activator of caspase (SMAC) mimetics was not affected by inhibition of HSF1. In cells from infected individuals, inhibition of HSF1 attenuated latency reversal by phorbol ester+ionomycin but not by anti-CD3+anti-CD28. HSF1 promotes elongation of HIV-1 RNA by recruiting P-TEFb to the HIV-1 long terminal repeat (LTR), and we show that inhibition of HSF1 attenuates the formation of elongated HIV-1 transcripts. We demonstrate that in vitro models of latency have higher levels of the P-TEFb subunit cyclin T1 than primary cells, which may explain why many LRAs are functional in model systems but relatively ineffective in primary cells. Together, these studies provide insights into why particular LRA combinations are effective in reversing latency in cells from infected individuals.

Published

2020

4. Age-associated changes in lineage composition of the enteric nervous system regulate gut health and disease

Author

Subhash Kulkarni, Monalee Saha, Jared Slosberg, Alpana Singh, Sushma Nagaraj, Laren Becker, Chengxiu Zhang, Alicia Bukowski, Zhuolun Wang, Guosheng Liu, Jenna Leser, Mithra Kumar, Shriya Bakhshi, Matthew Anderson, Mark Lewandoski, Elizabeth Vincent, Loyal A. Goff, and Pankaj Jay Pasricha

Subjects

Gastrointestinal tract, Lineage (genetic), Single cell transcriptomics, Neural crest, Enteric nervous system, Progenitor cell, Biology, Embryonic stem cell, Function (biology), Cell biology

Abstract

The enteric nervous system (ENS), a collection of neural cells contained in the wall of the gut, is of fundamental importance to gastrointestinal and systemic health. According to the prevailing paradigm, the ENS arises from progenitor cells migrating from the neural crest and remains largely unchanged thereafter. Here, we show that the lineage composition of maturing ENS changes with time, with a decline in the canonical lineage of neural-crest derived neurons and their replacement by a newly identified lineage of mesoderm-derived neurons. Single cell transcriptomics and immunochemical approaches establish a distinct expression profile of mesoderm-derived neurons. The dynamic balance between the proportions of neurons from these two different lineages in the post-natal gut is dependent on the availability of their respective trophic signals, GDNF-RET and HGF-MET. With increasing age, the mesoderm-derived neurons become the dominant form of neurons in the ENS, a change associated with significant functional effects on intestinal motility which can be reversed by GDNF supplementation. Transcriptomic analyses of human gut tissues show reduced GDNF-RET signaling in patients with intestinal dysmotility which is associated with reduction in neural crest-derived neuronal markers and concomitant increase in transcriptional patterns specific to mesoderm-derived neurons. Normal intestinal function in the adult gastrointestinal tract therefore appears to require an optimal balance between these two distinct lineages within the ENS.

Published

2020

5. Simian-Human Immunodeficiency Virus SHIV.C.CH505 Persistence in ART-Suppressed Infant Macaques Is Characterized by Elevated SHIV RNA in the Gut and a High Abundance of Intact SHIV DNA in Naive CD4

Author

Katherine M. Bricker, Sallie R. Permar, Katharine J. Bar, Thomas H. Vanderford, Veronica Obregon-Perko, Emily J. Fray, Anna Horner, Ferzan Uddin, Julian Sass, Cliburn Chan, Mithra Kumar, Guido Silvestri, Ann Chahroudi, Maud Mavigner, Gloria Mensah, Genevieve G. Fouda, Shan Liang, Robert F. Siliciano, Stella J. Berendam, George M. Shaw, and Nils Schoof

Subjects

CD4-Positive T-Lymphocytes, Male, viruses, Simian Acquired Immunodeficiency Syndrome, Administration, Oral, HIV Infections, medicine.disease_cause, Macaque, 0302 clinical medicine, 030212 general & internal medicine, 0303 health sciences, biology, human immunodeficiency virus, Monkey Diseases, Provirus, Viral Load, cure, Rhesus macaque, medicine.anatomical_structure, Anti-Retroviral Agents, RNA, Viral, Female, Simian Immunodeficiency Virus, Reassortant Viruses, reservoir, T cell, nonhuman primates, Immunology, Viremia, Microbiology, Virus, 03 medical and health sciences, Immunity, Virology, biology.animal, medicine, Animals, 030304 developmental biology, Disease Reservoirs, Simian immunodeficiency virus, biology.organism_classification, medicine.disease, Macaca mulatta, pediatric, Animals, Newborn, Insect Science, DNA, Viral, HIV-1, Pathogenesis and Immunity

Abstract

Uncovering the sanctuaries of the long-lived HIV-1 reservoir is crucial to develop cure strategies. Pediatric immunity is distinct from that of adults, which may alter where the reservoir is established in infancy. Thus, it is important to utilize pediatric models to inform cure-directed approaches for HIV-1-infected children. We used an infant rhesus macaque model of HIV-1 infection via breastfeeding to identify key sites of viral persistence under antiretroviral therapy (ART). The gastrointestinal tract was found to be a site for low-level viral transcription during ART. We also show that naive CD4+ T cells harbored intact provirus and were a major contributor to blood and lymphoid reservoir size. This is particularly striking, as memory CD4+ T cells are generally regarded as the main source of latent HIV/simian immunodeficiency virus (SIV) infection of adult humans and rhesus macaques. Our findings highlight unique features of reservoir composition in pediatric infection that should be considered for eradication efforts., Mother-to-child transmission of human immunodeficiency virus type 1 (HIV-1) continues to cause new pediatric cases of infection through breastfeeding, a setting where it is not always possible to initiate early antiretroviral therapy (ART). Without novel interventions that do not rely on daily ART, HIV-1-infected children face lifelong medications to control infection. A detailed analysis of virus persistence following breast milk transmission of HIV-1 and ART has not been performed. Here, we used infant rhesus macaques orally infected with simian/human immunodeficiency virus (SHIV) (SHIV.C.CH505) to identify cellular and anatomical sites of virus persistence under ART. Viral DNA was detected at similar levels in blood and tissue CD4+ T cells after a year on ART, with virus in blood and lymphoid organs confirmed to be replication competent. Viral RNA/DNA ratios were elevated in rectal CD4+ T cells compared to those of other sites (P ≤ 0.0001), suggesting that the gastrointestinal tract is an active site of virus transcription during ART-mediated suppression of viremia. SHIV.C.CH505 DNA was detected in multiple CD4+ T cell subsets, including cells with a naive phenotype (CD45RA+ CCR7+ CD95–). While the frequency of naive cells harboring intact provirus was lower than in memory cells, the high abundance of naive cells in the infant CD4+ T cell pool made them a substantial source of persistent viral DNA (approximately 50% of the total CD4+ T cell reservoir), with an estimated 1:2 ratio of intact provirus to total viral DNA. This viral reservoir profile broadens our understanding of virus persistence in a relevant infant macaque model and provides insight into targets for cure-directed approaches in the pediatric population. IMPORTANCE Uncovering the sanctuaries of the long-lived HIV-1 reservoir is crucial to develop cure strategies. Pediatric immunity is distinct from that of adults, which may alter where the reservoir is established in infancy. Thus, it is important to utilize pediatric models to inform cure-directed approaches for HIV-1-infected children. We used an infant rhesus macaque model of HIV-1 infection via breastfeeding to identify key sites of viral persistence under antiretroviral therapy (ART). The gastrointestinal tract was found to be a site for low-level viral transcription during ART. We also show that naive CD4+ T cells harbored intact provirus and were a major contributor to blood and lymphoid reservoir size. This is particularly striking, as memory CD4+ T cells are generally regarded as the main source of latent HIV/simian immunodeficiency virus (SIV) infection of adult humans and rhesus macaques. Our findings highlight unique features of reservoir composition in pediatric infection that should be considered for eradication efforts.

Published

2020

6. Multiple genetic programs contribute to CD4 T cell memory differentiation and longevity by maintaining T cell quiescence

Author

Søren Ulrik Sønder, Scheherazade Sadegh-Nasseri, Srona Sengupta, Robin A. Welsh, Robert F. Siliciano, John-William Sidhom, Chunfa Jie, Hao Zhang, Stanislav Khoruzhenko, AeRyon Kim, Mithra Kumar, and Nianbin Song

Subjects

Adult, CD4-Positive T-Lymphocytes, Male, 0301 basic medicine, Aging, DNA repair, T cell, Immunology, Mice, Transgenic, Memory T cell, Biology, Lymphocyte Activation, Gene, Article, Genetic programs, Interferon-gamma, Mice, 03 medical and health sciences, 0302 clinical medicine, Gene expression, medicine, Animals, Humans, Cell Proliferation, Mice, Inbred BALB C, Cell growth, Cell Differentiation, CD4 T cell, Acquired immune system, Memory cell markers, Cell longevity, Cell biology, 030104 developmental biology, medicine.anatomical_structure, Apoptosis, Cytokines, Immunologic Memory, 030215 immunology

Abstract

While memory T-cells represent a hallmark of adaptive immunity, little is known about the genetic mechanisms regulating the longevity of memory CD4 T cells. Here, we studied the dynamics of gene expression in antigen specific CD4 T cells during infection, memory differentiation, and long-term survival up to nearly a year in mice. We observed that differentiation into long lived memory cells is associated with increased expression of genes inhibiting cell proliferation and apoptosis as well as genes promoting DNA repair response, lipid metabolism, and insulin resistance. We identified several transmembrane proteins in long-lived murine memory CD4 T cells, which co-localized exclusively within the responding antigen-specific memory CD4 T cells in human. The unique gene signatures of long-lived memory CD4 T cells, along with the new markers that we have defined, will enable a deeper understanding of memory CD4 T cell biology and allow for designing novel vaccines and therapeutics.

Published

2020

7. Expanded cellular clones carrying replication-competent HIV-1 persist, wax, and wane

Author

Robert F. Siliciano, Adam A. Capoferri, Evelyn E. Gurule, Kyungyoon J. Kwon, Subul A. Beg, Alison L. Hill, Janet D. Siliciano, Zheng Wang, Timothy P. Brennan, Nina N. Hosmane, Mithra Kumar, Ya Chi Ho, Jeffrey M. Gerold, and Stuart C. Ray

Subjects

0301 basic medicine, CD4-Positive T-Lymphocytes, Time Factors, T cell, Human immunodeficiency virus (HIV), Viremia, HIV Infections, Biology, medicine.disease_cause, Virus Replication, Virus, 03 medical and health sciences, Proviruses, In vivo, medicine, Humans, Phylogeny, Cell Proliferation, Multidisciplinary, T-cell receptor, medicine.disease, Virology, Virus Latency, 030104 developmental biology, medicine.anatomical_structure, PNAS Plus, Host-Pathogen Interactions, HIV-1, Homeostasis, Ex vivo

Abstract

The latent reservoir for HIV-1 in resting CD4+ T cells is a major barrier to cure. Several lines of evidence suggest that the latent reservoir is maintained through cellular proliferation. Analysis of this proliferative process is complicated by the fact that most infected cells carry defective proviruses. Additional complications are that stimuli that drive T cell proliferation can also induce virus production from latently infected cells and productively infected cells have a short in vivo half-life. In this ex vivo study, we show that latently infected cells containing replication-competent HIV-1 can proliferate in response to T cell receptor agonists or cytokines that are known to induce homeostatic proliferation and that this can occur without virus production. Some cells that have proliferated in response to these stimuli can survive for 7 d while retaining the ability to produce virus. This finding supports the hypothesis that both antigen-driven and cytokine-induced proliferation may contribute to the stability of the latent reservoir. Sequencing of replication-competent proviruses isolated from patients at different time points confirmed the presence of expanded clones and demonstrated that while some clones harboring replication-competent virus persist longitudinally on a scale of years, others wax and wane. A similar pattern is observed in longitudinal sampling of residual viremia in patients. The observed patterns are not consistent with a continuous, cell-autonomous, proliferative process related to the HIV-1 integration site. The fact that the latent reservoir can be maintained, in part, by cellular proliferation without viral reactivation poses challenges to cure.

Published

2018

8. Design of a Mechatronic Drive Train with Regenerative Braking

Author

S. G. Ponnambalam, S. Veera Ragavan, and Jeya Mithra Kumar

Subjects

Accumulator (energy), Engineering, Regenerative brake, Engine braking, business.industry, Drivetrain, Control engineering, General Medicine, Mechatronics, business, Automotive engineering

Abstract

Building a research framework for a Parallel Hydraulic Hybrid (PHH) Prototype with Hydraulic Regenerative Braking and Launch Assist (HRB/HLA) System for small and medium sized vehicles has been attempted. The objective of this work is to capture lost Kinetic Energy during braking and store that captured energy in a pressurized accumulator to be used again to assist accleration. The experimental implementation and validation of the Regenerative Braking System concept for light vehicles has been done using a go-kart powered by a single cylinder Honda engine to demonstrate energy savings in a real life braking scenario. A light weight test system accommodating all the Hydraulic Breaking System components mounted at the rear of the go-kart has been successfully built and tested.

Published

2011

9. SIV proviral landscape differs from that of HIV-1 and shows gross hypermutation

Author

Janice E. Clements, Robert F. Siliciano, Katherine M. Bruner, A.J. Murray, Dan H. Barouch, P.-T. Liu, Mithra Kumar, Andrew E. Timmons, and Janet D. Siliciano

Subjects

Epidemiology, Immunology, Public Health, Environmental and Occupational Health, Human immunodeficiency virus (HIV), Somatic hypermutation, Biology, medicine.disease_cause, Microbiology, Virology, QR1-502, Infectious Diseases, medicine, Public aspects of medicine, RA1-1270

Published

2017

10. Tu1495 A Novel Therapeutic Approach Targeting TRAIL Signaling Reveals a Role for Activated Pancreatic Stellate Cells in the Pathogenesis of Pain in Chronic Pancreatitis

Author

Ogyi Park, Liansheng Liu, Yaohui Zhu, Mithra Kumar, Pankaj J. Pasricha, Seulki Lee, Qian Li, Subhash Kulkarni, and Monalee Saha

Subjects

Pathogenesis, Pathology, medicine.medical_specialty, Therapeutic approach, Hepatology, business.industry, Gastroenterology, Cancer research, Hepatic stellate cell, Medicine, Pancreatitis, business, medicine.disease

Published

2016

11. 135 The Use of Diphtheria Toxin in Transgenic Mice for Regionally Targeted and Cell-Specific Ablation to Recapitulate Putative Models of Motility Disorder

Author

Nils Bessler, Liansheng Liu, Subhash Kulkarni, Jenna Leser, Anna Hasche, Dennis Bigge, Maria-Adelaide Micci, Pankaj J. Pasricha, and Mithra Kumar

Subjects

Diphtheria toxin, Genetically modified mouse, Cell specific, Hepatology, medicine.medical_treatment, Gastroenterology, medicine, Motility disorder, Biology, Ablation, Molecular biology, Cell biology

Published

2016

12. Real Time Force Sensing Mat for Human Gait Analysis

Author

Darwin Gouwanda, S. M. N. Arosha Senanayake, M. M. Danushka Ranjana Marasinghe, Mervin Chandrapal, Jeya Mithra Kumar, Tung Mun Hon, and Yulius

Subjects

ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Force platform, Force sensing resistor, human gait analysis

Abstract

This paper presents a real time force sensing instrument that is designed for human gait analysis purposes. This instrument mainly consists of three main elements: the force sensing mat, signal conditioning and switching circuit and data acquisition device. In order to control and to process the incoming signals from the force sensing mat, Force-Logger and Force-Reloader program are developed using Labview 8.0. This paper describes the architecture of the force sensing mat, signal conditioning and switching circuit and the real time streaming of the incoming data from the force sensing mat., {"references":["J. Paradiso, C. Abler, K. Y. Hsiao, M. Reynolds, \"The Magic Carpet: Physical Sensing for Immersive Environments\", Proc. of the CHI '97 Conference on Human Factors in Computing Systems, ACM Press, NY,\n1997, pp 277-278.","P. Srinivasan, G. Qian, D. Birchfield, Kidané A., \"Design of a Pressure Sensitive Floor for Multimodal Sensing\" Proceedings of the International Conference on Non-visual & Multimodal Visualization,\nLondon, UK, 2005.","T. Lee, Y. Kwon, H. Kim, \"Smart Location Tracking System using FSR\n(Force Sensing Resistor)\" International Conference on Artificial Reality\nand Telexistence, Coex, Korea, 2004.","J. O. Robert, \"Smart Floor: Future Computing Environments\", available\nat http://www-static. cc. gatech.edu/fce/smartfloor/"]}

Published

2008