👤 Rathindranath Baral

Atherosclerotic cardiovascular disease (ASCVD) is a leading cause of death. Systemic autoimmune and inflammatory diseases are associated with increased ASCVD risk, severity, and mortality. The inflammatory cytokine interleukin 9 (IL-9) has been linked to murine atherogenesis, raising fundamental questions about the populations in which and the mechanisms by which IL-9 drives ASCVD. Circulating T helper subsets and coronary computed tomography angiography data were analysed in patients with psoriasis. Murine models of psoriatic atherogenesis (imiquimod-ApoE Here, we found that expansion of IL-9-producing T helper cells (Th9) was significantly associated with high-risk radiographic ASCVD in patients with the autoimmune disease psoriasis. Th9 cells were poised to migrate to coronary vessels and were identified in human atherosclerotic plaque from individuals with psoriasis. In vivo, murine inflammatory atherogenesis was prevented by IL-9 blockade and by IL-9 receptor (IL-9R) deletion in endothelial cells. In human arterial endothelial cells, IL-9R/STAT3 signalling promoted endothelial dysfunction via diverse mechanisms including adhesion, activation, angiogenesis, and release of leukocyte chemoattractants. These findings suggest the Th9 Show less

Hepatic proteomes are intricately controlled through biosynthesis, extracellular secretion, and intrahepatic degradation. Autophagy governs lysosome-mediated intrahepatic degradation and the hepatic proteome. When autophagy is impaired, it leads to the accumulation of intrahepatic proteins, causing proteinopathy. This study investigates whether autophagy can modulate the hepatic proteome non-degradatively. Utilizing conditional, inducible, and hepatotoxin models of hepatic autophagy impairment, we assessed the overall hepatic proteome expression using Coomassie brilliant blue (CBB) staining and liquid chromatography-tandem mass spectrometry (LC/MS). We pinpointed and confirmed four specific hepatic proteins-Cps1, Ahcy, Ca3, and Gstm1-that were selectively modified in autophagy-deficient livers. Expression of Cps1, Ahcy, and Ca3 were significantly reduced, while Gstm1 expression increased in livers with autophagy impairment. Interestingly, these changes in hepatic protein levels were not due to defective autophagic degradation but were associated with alterations in mRNA transcript levels. Moreover, as a result of autophagic dysfunction, sustained activation of the nuclear erythroid-derived 2-like 2 (Nrf2) transcription factor, transcriptionally regulated the mRNA levels of these proteins. Our findings indicate that autophagy can influence hepatic proteins not solely via traditional degradative routes but also through non-degradative transcriptional processes by modulating Nrf2. Show less

Inhibition of PKC (PKCi) signaling maintains pluripotency of embryonic stem cells (ESCs) across different mammalian species. However, the position of PKCi maintained ESCs in the pluripotency continuum is largely unknown. Here we demonstrate that mouse ESCs when cultured continuously, with PKCi, for 75 days are retained in naïve state of pluripotency. Gene expression analysis and proteomics studies demonstrated enhanced naïve character of PKCi maintained ESCs in comparison to classical serum/LIF (S/L) supported ESCs. Molecular analysis revealed that activation of PKCζ isoform associate with primed state of pluripotency, present in epiblast-like stem cells generated in vitro while inhibition of PKCζ phosphorylation associated with naïve state of pluripotency in vitro and in vivo. Phosphoproteomics and chromatin modification enzyme array based studies showed loss in DNA methyl transferase 3B (DNMT3B) and its phosphorylation level upon functional inhibition of PKCζ as one of the crucial components of this regulatory pathway. Unlike ground state of pluripotency maintained by MEK/GSK3 inhibitor in addition to LIF (2i/LIF), loss in DNMT3B is a reversible phenomenon in PKCi maintained ESCs. Absence of phosphorylation of c-MYC, RAF1, SPRY4 while presence of ERF, DUSP6, CIC and YAP1 phosphorylation underlined the phosphoproteomics signature of PKCi mediated maintenance of naïve pluripotency. States of pluripotency represent the developmental continuum and the existence of PKCi mediated mouse ESCs in a distinct state in the continuum of pluripotency (DiSCo) might contribute to the establishment of stages of murine embryonic development that were non-permissible till date. Show less

Elicitation of the tumor-eliminating immune response is a major challenge, as macrophages- constituting a major component of solid tumor mass- play important roles in development, maintenance and tumor regression. The macrophage-expressed Toll-Like Receptors (TLRs) enhance macrophage function and their ability to activate T cells via secretion of cytokines, which may help in tumor regression. IL-27, a member of the IL-12 family of cytokines, is shown to exhibit anti-tumor and anti-angiogenic activities. Herein, we developed B16BL6 melanoma model in C75BL/6 mouse to dissect the crosstalk between TLRs and IL-27 in tumors. We report existence of a novel TLR- IL-27 feed-forward loop, whereby TLRs and IL-27 up-regulated each other's expression, which we found perturbed during melanoma tumorigenesis. Intra-tumoral injection of Imiquimod, a TLR7/8 ligand, reduced the tumor burden; the anti-tumor effect was reversed upon IL-27 and IL-27R silencing by intra-tumorally administered, lentivirally expressed IL-27 and IL-27R shRNA. The reduced tumor growth was accompanied by significantly fewer Treg cells but increased IFN-γ and granzyme B expression by CD8 Show less