Jaganathan Subramani scite author profile

CD13 is a large cell surface peptidase expressed on the monocytes and activated endothelial cells important for homing to and resolving the damaged tissue at sites of injury. We have previously shown that crosslinking of human monocytic CD13 with activating antibodies induces strong adhesion to endothelial cells in a tyrosine kinase- and microtubule-dependent manner. In the current study we examined the molecular mechanisms underlying these observations in vitro and in vivo. We found that crosslinking of CD13 on U937 monocytic cells induced phosphorylation of a number of proteins, including Src, FAK and ERK and inhibition of these abrogated CD13-dependent adhesion. We found that CD13 itself was phosphorylated in a Src dependent manner, an unexpected finding as its 7 amino acid cytoplasmic tail was assumed to be inert. Furthermore, CD13 was constitutively associated with the scaffolding protein IQGAP1 and CD13 crosslinkinginduced complex formation with the actin-binding protein α-actinin, linking membrane-bound CD13 to the cytoskeleton, further supporting CD13 as an inflammatory adhesion molecule. Mechanistically, mutation of the conserved CD13 cytoplasmic tyrosine to phenylalanine abrogated adhesion, Src, FAK and ERK phosphorylation and cytoskeletal alterations upon antibody crosslinking. Finally, CD13 was phosphorylated in isolated murine inflammatory peritoneal exudate cells and adoptive transfer of monocytic cell lines engineered to express the mutant CD13 were severely impaired in their ability to migrate into the inflamed peritoneum, confirming that CD13 phosphorylation is relevant to inflammatory cell trafficking in vivo. Therefore, this study identifies CD13 as a novel, direct activator of intracellular signaling pathways in pathophysiological conditions.

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CD13 Restricts TLR4 Endocytic Signal Transduction in Inflammation

Ghosh

Subramani

Rahman

et al. 2015

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Dysregulation of the innate immune response underlies numerous pathological conditions. The Toll-like Receptor 4 (TLR4) is the prototypical sensor of infection or injury that orchestrates the innate response via sequential activation of both cell-surface and endocytic signaling pathways that trigger distinct downstream consequences. CD14 binds and delivers LPS to TLR4 and has been identified as a positive regulator of TLR4 signal transduction. It is logical that negative regulators of this process also exist to maintain the critical balance required for fighting infection, healing damaged tissue and resolving inflammation. We showed that CD13 negatively modulates receptor-mediated Ag uptake in dendritic cells to control T-cell activation in adaptive immunity. Here we report that myeloid CD13 governs internalization of TLR4 and subsequent innate signaling cascades, activating IRF-3 independently of CD14. CD13 is co-internalized with TLR4, CD14 and dynamin into Rab5+ early endosomes upon LPS treatment. Importantly, in response to TLR4 ligands HMGB1 and LPS, pIRF-3 activation and transcription of its target genes is enhanced in CD13KO DCs while TLR4 surface signaling remains unaffected, resulting in a skewed inflammatory response. This finding is physiologically relevant as ischemic injury in vivo provoked identical TLR4 responses. Finally, CD13KO mice showed significantly enhanced IFNβ-mediated signal transduction via JAK-STAT, escalating iNOS transcription levels and promoting accumulation of oxidative stress mediators and tissue injury. Mechanistically, inflammatory activation of macrophages upregulates CD13 expression and CD13 and TLR4 co-immunoprecipitate. Therefore, CD13 negatively regulates TLR4 signaling, thereby balancing the innate response by maintaining the inflammatory equilibrium critical to innate immune regulation.

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CD13 is essential for inflammatory trafficking and infarct healing following permanent coronary artery occlusion in mice

Pereira

Cronin

Ghosh

et al. 2013

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Expression analysis of melatonin receptor subtypes in the ovary of domestic chicken

et al. 2008

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Melatonin (N-acetyl-5-methoxytryptamine), an indole hormone, regulates various biological functions through three different receptor subtypes (Mel-1a, Mel-1b, and Mel-1c). However, the distribution of different melatonin receptor subtypes in chicken reproductive tissues was not known. In the present investigation, the partial sequences of ovarian melatonin receptor subtypes (Mel-1a, Mel-1b, and Mel-1c) were characterized. Further, the expression profile of melatonin receptor subtypes in the granulosa and theca layers of different preovulatory and postovulatory follicles (POF) were studied by semi-quantitative RT-PCR. The expression of all three subtypes of melatonin receptors were observed in the ovary of domestic chicken. Analysis of partial sequences of ovarian melatonin receptors revealed that the melatonin subtypes were identical to the brain receptors. In small white ovary follicles, we observed only the expression of mel-1b receptors, but not mel-1a or mel-1c receptors. In yellow follicles, all the three subtypes of receptors expression were noticed. Interestingly, we observed the expression of mel-1a receptor only in thecal layer, but not in granulosa layer. In contrast, mel-1b and -1c receptors were expressed in both granulosa and thecal layer. During the regression of POF, we observed significant upregulation of melatonin receptors (mel-1a and 1c) expression, that downregulated in the later stages of regression. We assume that the expression of melatonin receptors might have been influenced by the atresia or apoptosis of different follicular layers in POF. Our findings suggest that the differential distribution of melatonin receptor subtypes might have distinct downstream cellular functions in the ovarian tissues.

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Thioredoxin reverses age-related hypertension by chronically improving vascular redox and restoring eNOS function

et al. 2017

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The incidence of high blood pressure with advancing age is notably high, and it is an independent prognostic factor for the onset or progression of a variety of cardiovascular disorders. Although age-related hypertension is an established phenomenon, current treatments are only palliative but not curative. Thus, there is a critical need for a curative therapy against age-related hypertension, which could greatly decrease the incidence of cardiovascular disorders. We show that overexpression of human thioredoxin (TRX), a redox protein, in mice prevents age-related hypertension. Further, injection of recombinant human TRX (rhTRX) for three consecutive days reversed hypertension in aged wild-type mice, and this effect lasted for at least 20 days. Arteries of wild-type mice injected with rhTRX or mice with TRX overexpression exhibited decreased arterial stiffness, greater endothelium-dependent relaxation, increased nitric oxide production, and decreased superoxide anion (O2•−) generation compared to either saline-injected aged wild-type mice or mice with TRX deficiency. Our study demonstrates a potential translational role of rhTRX in reversing age-related hypertension with long-lasting efficacy.

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High doses of dietary zinc induce cytokines, chemokines, and apoptosis in reproductive tissues during regression

et al. 2008

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In chickens, high levels of dietary zinc cause molting, and the reproductive system undergoes complete remodeling concomitant to feather replacement. In the present study, the expression profiles of cytokines and chemokines were investigated in the ovary and oviduct of control hens and of hens induced to molt by zinc feeding. The zinc-induced feed-intake suppression, the changes in corticosterone levels, the immune cell populations in the reproductive tract, and the apoptosis of reproductive tissues were analyzed. The expression of mRNAs for interleukin-6 (IL-6), interferon-gamma (IFN-gamma), the avian ortholog of mammalian IL-8 (chCXCLi2), and a chicken MIP-1beta-like chemokine (chCCLi2) in the ovary and of mRNAs for IL-1beta, IL-6, IFN-gamma, transforming growth factor-beta2, chCXCLi2, and chCCLi2 in the oviduct were upregulated significantly during zinc-induced molting. A simultaneous feed-intake reduction was observed with higher expression of cytokines and chemokines. The results of the present investigation also suggested that the upregulation of corticosterone was closely associated with the increased expression of cytokines and chemokines. An increase in apoptosis within reproductive tissue during tissue regression was also noted. We had previously observed the upregulation of these cytokines expression in an earlier study (molting by feed withdrawal). However, the pattern and the level of expression were different among these two methods. These findings indicate that cytokines might be a common mediator of tissue regression during molting induced by diverse methods, although the pattern of induction is different. Thus, a high dose of dietary zinc seems to induce reproductive regression via the upregulation of cytokines and chemokines, the suppression of feed intake, and the increase in serum corticosterone, resulting finally in the apoptosis of reproductive tissues.

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Neuroprotective effect of s-methylisothiourea in transient focal cerebral ischemia in rat

et al. 2010

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Atorvastatin Restores the Impaired Vascular Endothelium-dependent Relaxations Mediated by Nitric Oxide and Endothelium-derived Hyperpolarizing Factors but Not Hypotension in Sepsis

Subramani

Kathirvel

Leo³

et al. 2009

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Sepsis has been reported to impair endothelium-dependent vasodilations mediated by nitric oxide (NO) and endothelium-derived hyperpolarizing factor (EDHF). Although some studies demonstrate that statins can improve NO-mediated response in septic animals, little is known about its effect on the EDHF response. The present study examined the effects of atorvastatin pretreatment on sepsis-induced endothelial dysfunctions and hypotension in rats. Eighteen hours after the induction of sepsis by cecal ligation and puncture, thoracic aorta and second generation pulmonary arteries were isolated to examine acetylcholine-induced endothelium-dependent dilations mediated by NO and EDHF, respectively. The messenger RNA (mRNA) expression for endothelial NO synthase (eNOS) and inducible NO synthase (iNOS) was done by real-time polymerase chain reaction. NO was measured as nitrate/nitrite release using Griess method. Mean arterial pressure was measured by the invasive method. Sepsis significantly decreased (26%) the relaxation response to acetylcholine in the rat aorta. It also markedly inhibited the eNOS mRNA expression and acetylcholine-stimulated NO release in this vessel. Pretreatment of the rats with atorvastatin (10 mg/kg, orally) 48, 24, and 2 hours before induction of sepsis preserved acetylcholine-induced relaxation, eNOS mRNA expression, acetylcholine-stimulated NO release, and attenuated increase in the inducible NO synthase mRNA expression and basal NO production in the aorta. The maximal EDHF response mediated by acetylcholine was 25.30% +/- 3.00% in the pulmonary artery. Sepsis abolished this response but atorvastatin restored it (22.55% +/- 2.50%). Atorvastatin, however, failed to prevent sepsis-induced hypotension. These results suggest that atorvastatin can restore impaired endothelium-dependent vasodilations mediated by NO and EDHF but not hypotension in sepsis.

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