Ashok K. Sharma scite author profile

Protease-activated receptor-2 (PAR-2) is a widely expressed tethered ligand receptor that can be activated by trypsin and other trypsin-like serine proteases. In the exocrine pancreas, PAR-2 activation modulates acinar cell secretion of digestive enzymes and duct cell ion channel function. During acute pancreatitis, digestive enzyme zymogens, including trypsinogen, are activated within the pancreas. We hypothesized that trypsin, acting via PAR-2, might regulate the severity of that disease, and to test this hypothesis, we examined the effect of either genetically deleting or pharmacologically activating PAR-2 on the severity of secretagogue-induced experimental pancreatitis. We found that experimental acute pancreatitis is more severe in PAR-2(-/-) than in wild-type mice and that in vivo activation of PAR-2, achieved by parenteral administration of the PAR-2-activating peptide SLIGRL-NH2, reduces the severity of pancreatitis. In the pancreas during the early stages of pancreatitis, the MAPK ERK1/2 is activated and translocated to the nucleus, but nuclear translocation is reduced by activation of PAR-2. Our findings indicate that PAR-2 exerts a protective effect on pancreatitis and that activation of PAR-2 ameliorates pancreatitis, possibly by inhibiting ERK1/2 translocation to the nucleus. Our observations suggest that PAR-2 activation may be of therapeutic value in the treatment and/or prevention of severe clinical pancreatitis, and they lead us to speculate that, from a teleological standpoint, PAR-2 may have evolved in the pancreas as a protective mechanism designed to dampen the injurious effects of intrapancreatic trypsinogen activation.

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Fabrication of conducting electrospun nanofibers scaffold for three-dimensional cells culture

Sharma

Tiwari

Hattori

et al. 2012

International Journal of Biological Macromolecules

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NHA-oc/NHA2: A mitochondrial cation–proton antiporter selectively expressed in osteoclasts

Battaglino¹,

Pham²,

Morse

et al. 2008

Bone

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Bone resorption is regulated by a complex system of hormones and cytokines that cause osteoblasts/stromal cells and lymphocytes to produce factors including RANKL, that ultimately result in the differentiation and activation of osteoclasts, the bone resorbing cells.We used a microarray approach to identify genes upregulated in RANKL-stimulated osteoclastprecursor cells. Osteoclast expression was confirmed by multiple tissue Northern and in situ hybridization analysis. Gene function studies were carried out by siRNA analysis.We identified a novel gene, which we termed nha-oc/NHA2, which is strongly upregulated during RANKL-induced osteoclast differentiation in vitro and in vivo. nha-oc/NHA2 encodes a novel cation/proton antiporter (CPA), and is the mouse orthologue of a human gene identified in a database search: HsNHA2. nha-oc/NHA2 is selectively expressed in osteoclasts. NHA-oc/NHA2 protein localizes to the mitochondria, where it mediates Na + -dependent changes in mitochondrial pH and Na + Acetate induced-mitochondrial passive swelling. RNA silencing of nha-oc/nha2 reduces osteoclast differentiation and resorption, suggesting a role for NHA-oc/NHA2 in these processes.nha-oc/NHA2 therefore is a novel member of the CPA family, and is the first mitochondrial NHA characterized to date. nha-oc/NHA2 is also unique in that it is the first eukaryotic and tissue specific CPA2 characterized to date. NHA-oc/NHA2 displays the expected activities of a bona fide CPA and plays a key role(s) in normal osteoclast differentiation and function.

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Chromium(III)-Induced Structural Changes and Self-Assembly of Collagen

Raghuraman

Sharma

Rajaram

et al. 2001

Biochemical and Biophysical Research Communications

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Ashok K. Sharma

Polypyrrole/carbon composite electrode for high-power electrochemical capacitors

Protection against acute pancreatitis by activation of protease-activated receptor-2

Fabrication of conducting electrospun nanofibers scaffold for three-dimensional cells culture

NHA-oc/NHA2: A mitochondrial cation–proton antiporter selectively expressed in osteoclasts

Chromium(III)-Induced Structural Changes and Self-Assembly of Collagen

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