Atropine-sensitive theta rhythm in the posterior hypothalamic area: In vivo and in vitro studies

BackgroundHypobaric hypoxia causes complex changes in the expression of genes, including stress related genes and corresponding proteins that are necessary to maintain homeostasis. Whereas most prior studies focused on single proteins, newer methods allowing the simultaneous study of many proteins could lead to a better understanding of complex and dynamic changes that occur during the hypobaric hypoxia.MethodsIn this study we investigated the temporal plasma protein alterations of rat induced by hypobaric hypoxia at a simulated altitude of 7620 m (25,000 ft, 282 mm Hg) in a hypobaric chamber. Total plasma proteins collected at different time points (0, 6, 12 and 24 h), separated by two-dimensional electrophoresis (2-DE) and identified using matrix assisted laser desorption ionization time of flight (MALDI-TOF/TOF). Biological processes that were enriched in the plasma proteins during hypobaric hypoxia were identified using Gene Ontology (GO) analysis. According to their properties and obvious alterations during hypobaric hypoxia, changes of plasma concentrations of Ttr, Prdx-2, Gpx -3, Apo A-I, Hp, Apo-E, Fetub and Nme were selected to be validated by Western blot analysis.ResultsBioinformatics analysis of 25 differentially expressed proteins showed that 23 had corresponding candidates in the database. The expression patterns of the eight selected proteins observed by Western blot were in agreement with 2-DE results, thus confirming the reliability of the proteomic analysis. Most of the proteins identified are related to cellular defense mechanisms involving anti-inflammatory and antioxidant activity. Their presence reflects the consequence of serial cascades initiated by hypobaric hypoxia.Conclusion/SignificanceThis study provides information about the plasma proteome changes induced in response to hypobaric hypoxia and thus identification of the candidate proteins which can act as novel biomarkers.

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An Insight into the Changes in Human Plasma Proteome on Adaptation to Hypobaric Hypoxia

Ahmad

Sharma

Garg

et al. 2013

PLoS ONE

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Adaptation to hypobaric hypoxia is required by animals and human in several physiological and pathological situations. Hypobaric hypoxia is a pathophysiological condition triggering redox status disturbances of cell organization leading, via oxidative stress, to proteins, lipids, and DNA damage. Identifying the molecular variables playing key roles in this process would be of paramount importance to shed light on the mechanisms known to counteract the negative effects of oxygen lack. To obtain a molecular signature, changes in the plasma proteome were studied by using proteomic approach. To enrich the low-abundance proteins in human plasma, two highly abundant proteins, albumin and IgG, were first removed. By comparing the plasma proteins of high altitude natives with those of a normal control group, several proteins with a significant alteration were found. The up-regulated proteins were identified as vitamin D-binding protein, hemopexin, alpha-1–antitrypsin, haptoglobin β-chain, apolipoprotein A1, transthyretin and hemoglobin beta chain. The down-regulated proteins were transferrin, complement C3, serum amyloid, complement component 4A and plasma retinol binding protein. Among these proteins, the alterations of transthyretin and transferrin were further confirmed by ELISA and Western blotting analysis. Since all the up- and down- regulated proteins identified above are well-known inflammation inhibitors and play a positive anti-inflammatory role, these results show that there is some adaptive mechanism that sustains the inflammation balance in high altitude natives exposed to hypobaric hypoxia.

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TLR signalling and association of TLR polymorphism with cardiovascular diseases

Sharma

Garg

Ashraf

2016

Vascular Pharmacology

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An electrochemical genosensor for Salmonella typhi on gold nanoparticles-mercaptosilane modified screen printed electrode

Das

Sharma

Rao

et al. 2014

Journal of Biotechnology

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Identification of haptoglobin and apolipoprotein A-I as biomarkers for high altitude pulmonary edema

Ahmad

Shukla

Garg

et al. 2011

Funct Integr Genomics

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We have investigated the plasma proteome using 2D gel electrophoresis and matrix-assisted laser desorption/ionization tandem time of flight from patients with high altitude pulmonary edema (HAPE). A complete proteomic analysis was performed on 20 patients with HAPE and ten healthy sea level controls. In total, we have identified 25 protein spots in human plasma and found that 14 of them showed altered changes in HAPE patients, which mainly were acute phase proteins (APPs), compliment components, and apolipoproteins among others. Among the APPs, haptoglobin α2 chain, haptoglobin β chain, transthyretin, and plasma retinol binding precursor showed overexpression in HAPE patients as compared to controls. To validate the result of proteomic analysis, two proteins were selected for enzyme-linked immunosorbent assay and Western blotting analysis. Our data conclusively shows that two proteins, haptoglobin and apolipoprotein A-I are upregulated in plasma of HAPE patients. These proteins may provide a fast and effective control of inflammatory damage until the subsequent mechanisms can begin to operate. Taken together, our findings further support the hypothesis that inflammatory response system is linked to the pathophysiology of HAPE.

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The proteome of Hypobaric Induced Hypoxic Lung: Insights from Temporal Proteomic Profiling for Biomarker Discovery

Ahmad

Sharma

Ahmad³

et al. 2015

Sci Rep

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Exposure to high altitude induces physiological responses due to hypoxia. Lungs being at the first level to face the alterations in oxygen levels are critical to counter and balance these changes. Studies have been done analysing pulmonary proteome alterations in response to exposure to hypobaric hypoxia. However, such studies have reported the alterations at specific time points and do not reflect the gradual proteomic changes. These studies also identify the various biochemical pathways and responses induced after immediate exposure and the resolution of these effects in challenge to hypobaric hypoxia. In the present study, using 2-DE/MS approach, we attempt to resolve these shortcomings by analysing the proteome alterations in lungs in response to different durations of exposure to hypobaric hypoxia. Our study thus highlights the gradual and dynamic changes in pulmonary proteome following hypobaric hypoxia. For the first time, we also report the possible consideration of SULT1A1, as a biomarker for the diagnosis of high altitude pulmonary edema (HAPE). Higher SULT1A1 levels were observed in rats as well as in humans exposed to high altitude, when compared to sea-level controls. This study can thus form the basis for identifying biomarkers for diagnostic and prognostic purposes in responses to hypobaric hypoxia.

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A key role of toll-like receptor 3 in tissue factor activation through extracellular signal regulated kinase 1/2 pathway in a murine hypoxia model

Biswas

Garg

Singh

et al. 2012

Blood Cells, Molecules, and Diseases

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COVID-19 infection and thrombosis

Srivastava

Garg

Bansal

et al. 2020

Clinica Chimica Acta

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Highlights Coagulation parameters such should be checked at the time of admission of COVID-19 patient. Measurement of these parameters should continue at regular intervals during entire treatment. Prophylactic anticoagulation therapy, with LMWH or unfractionated heparin is recommended. Anticoagulation therapy is strongly recommended patients at high-risk for coagulopathy. Dose and duration of anti-coagulation therapy should be decided on case to case basis.

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Iti Garg

Proteomic Identification of Novel Differentiation Plasma Protein Markers in Hypobaric Hypoxia-Induced Rat Model

An Insight into the Changes in Human Plasma Proteome on Adaptation to Hypobaric Hypoxia

TLR signalling and association of TLR polymorphism with cardiovascular diseases

An electrochemical genosensor for Salmonella typhi on gold nanoparticles-mercaptosilane modified screen printed electrode

Identification of haptoglobin and apolipoprotein A-I as biomarkers for high altitude pulmonary edema

The proteome of Hypobaric Induced Hypoxic Lung: Insights from Temporal Proteomic Profiling for Biomarker Discovery

A key role of toll-like receptor 3 in tissue factor activation through extracellular signal regulated kinase 1/2 pathway in a murine hypoxia model

COVID-19 infection and thrombosis

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