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7 results on '"Choudhury, Sarmistha"'

1. Human CardioChimeras: Creation of a Novel “Next‐Generation” Cardiac Cell

Author

Firouzi, Fareheh, Choudhury, Sarmistha Sinha, Broughton, Kathleen, Salazar, Adriana, Bailey, Barbara, and Sussman, Mark A

Subjects
Stem Cell Research, Stem Cell Research - Nonembryonic - Human, Heart Disease, Regenerative Medicine, Biotechnology, Stem Cell Research - Nonembryonic - Non-Human, Cardiovascular, 5.2 Cellular and gene therapies, Development of treatments and therapeutic interventions, Aetiology, 2.1 Biological and endogenous factors, Animals, Biomarkers, Cell Fusion, Cell Proliferation, Cell Survival, Cells, Cultured, Coculture Techniques, Diploidy, Humans, Hybrid Cells, Mesenchymal Stem Cells, Myocardium, Myocytes, Cardiac, Phenotype, Proto-Oncogene Proteins c-kit, Rats, Time Factors, cardiac, cardiac interstitial cells, cell fusion, human, mesenchymal stromal cells, Cardiorespiratory Medicine and Haematology
Abstract

Background CardioChimeras produced by fusion of murine c-kit+ cardiac interstitial cells with mesenchymal stem cells promote superior structural and functional recovery in a mouse model of myocardial infarction compared with either precursor cell alone or in combination. Creation of human CardioChimeras (hCCs) represents the next step in translational development of this novel cell type, but new challenges arise when working with c-kit+ cardiac interstitial cells isolated and expanded from human heart tissue samples. The objective of the study was to establish a reliable cell fusion protocol for consistent optimized creation of hCCs and characterize fundamental hCC properties. Methods and Results Cell fusion was induced by incubating human c-kit+ cardiac interstitial cells and mesenchymal stem cells at a 2:1 ratio with inactivated Sendai virus. Hybrid cells were sorted into 96-well microplates for clonal expansion to derive unique cloned hCCs, which were then characterized for various cellular and molecular properties. hCCs exhibited enhanced survival relative to the parent cells and promoted cardiomyocyte survival in response to serum deprivation in vitro. Conclusions The generation of hCC is demonstrated and validated in this study, representing the next step toward implementation of a novel cell product for therapeutic development. Feasibility of creating human hybrid cells prompts consideration of multiple possibilities to create novel chimeric cells derived from cells with desirable traits to promote healing in pathologically damaged myocardium.

Published
2020

2. Engulfment and Cell Motility Protein 1 (ELMO1) Has an Essential Role in the Internalization of Salmonella Typhimurium Into Enteric Macrophages That Impact Disease Outcome

Author

Das, Soumita, Sarkar, Arup, Choudhury, Sarmistha Sinha, Owen, Katherine A, Derr-Castillo, Victoria L, Fox, Sarah, Eckmann, Lars, Elliott, Michael R, Casanova, James E, and Ernst, Peter B

Subjects
Biochemistry and Cell Biology, Biological Sciences, Biomedical and Clinical Sciences, Microbiology, Clinical Sciences, Medical Microbiology, Emerging Infectious Diseases, Vaccine Related, Prevention, Inflammatory Bowel Disease, Autoimmune Disease, Infectious Diseases, Biodefense, Foodborne Illness, Digestive Diseases, 2.1 Biological and endogenous factors, Aetiology, 2.2 Factors relating to the physical environment, Infection, Engulfment Pathway, Enteric Infection, Host Cellular Responses, Intestinal Inflammation, Salmonella, Engulfment pathway, Enteric infection, Host cellular responses, Intestinal inflammation, Biochemistry and cell biology, Clinical sciences
Abstract

Backgrounds and aims4-6 million people die of enteric infections each year. After invading intestinal epithelial cells, enteric bacteria encounter phagocytes. However, little is known about how phagocytes internalize the bacteria to generate host responses. Previously, we have shown that BAI1 (Brain Angiogenesis Inhibitor 1) binds and internalizes Gram-negative bacteria through an ELMO1 (Engulfment and cell Motility protein 1)/Rac1-dependent mechanism. Here we delineate the role of ELMO1 in host inflammatory responses following enteric infection.MethodsELMO1-depleted murine macrophage cell lines, intestinal macrophages and ELMO1 deficient mice (total or myeloid-cell specific) was infected with Salmonella enterica serovar Typhimurium. The bacterial load, inflammatory cytokines and histopathology was evaluated in the ileum, cecum and spleen. The ELMO1 dependent host cytokines were detected by a cytokine array. ELMO1 mediated Rac1 activity was measured by pulldown assay.ResultsThe cytokine array showed reduced release of pro-inflammatory cytokines, including TNF-α and MCP-1, by ELMO1-depleted macrophages. Inhibition of ELMO1 expression in macrophages decreased Rac1 activation (~6 fold) and reduced internalization of Salmonella. ELMO1-dependent internalization was indispensable for TNF-α and MCP-1. Simultaneous inhibition of ELMO1 and Rac function virtually abrogated TNF-α responses to infection. Further, activation of NF-κB, ERK1/2 and p38 MAP kinases were impaired in ELMO1-depleted cells. Strikingly, bacterial internalization by intestinal macrophages was completely dependent on ELMO1. Salmonella infection of ELMO1-deficient mice resulted in a 90% reduction in bacterial burden and attenuated inflammatory responses in the ileum, spleen and cecum.ConclusionThese findings suggest a novel role for ELMO1 in facilitating intracellular bacterial sensing and the induction of inflammatory responses following infection with Salmonella.

Published
2015

3. ELMO1 has an essential role in the internalization of Salmonella Typhimurium into enteric macrophages that impacts disease outcome.

Author

Das, Soumita, Sarkar, Arup, Choudhury, Sarmistha Sinha, Owen, Katherine A, Castillo, Victoria, Fox, Sarah, Eckmann, Lars, Elliott, Michael R, Casanova, James E, and Ernst, Peter B

Subjects
Engulfment pathway, Enteric infection, Host cellular responses, Intestinal inflammation, Salmonella
Abstract

Backgrounds and aims4-6 million people die of enteric infections each year. After invading intestinal epithelial cells, enteric bacteria encounter phagocytes. However, little is known about how phagocytes internalize the bacteria to generate host responses. Previously, we have shown that BAI1 (Brain Angiogenesis Inhibitor 1) binds and internalizes Gram-negative bacteria through an ELMO1 (Engulfment and cell Motility protein 1)/Rac1-dependent mechanism. Here we delineate the role of ELMO1 in host inflammatory responses following enteric infection.MethodsELMO1-depleted murine macrophage cell lines, intestinal macrophages and ELMO1 deficient mice (total or myeloid-cell specific) was infected with Salmonella enterica serovar Typhimurium. The bacterial load, inflammatory cytokines and histopathology was evaluated in the ileum, cecum and spleen. The ELMO1 dependent host cytokines were detected by a cytokine array. ELMO1 mediated Rac1 activity was measured by pulldown assay.ResultsThe cytokine array showed reduced release of pro-inflammatory cytokines, including TNF-α and MCP-1, by ELMO1-depleted macrophages. Inhibition of ELMO1 expression in macrophages decreased Rac1 activation (~6 fold) and reduced internalization of Salmonella. ELMO1-dependent internalization was indispensable for TNF-α and MCP-1. Simultaneous inhibition of ELMO1 and Rac function virtually abrogated TNF-α responses to infection. Further, activation of NF-κB, ERK1/2 and p38 MAP kinases were impaired in ELMO1-depleted cells. Strikingly, bacterial internalization by intestinal macrophages was completely dependent on ELMO1. Salmonella infection of ELMO1-deficient mice resulted in a 90% reduction in bacterial burden and attenuated inflammatory responses in the ileum, spleen and cecum.ConclusionThese findings suggest a novel role for ELMO1 in facilitating intracellular bacterial sensing and the induction of inflammatory responses following infection with Salmonella.

Published
2015

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