18 results on '"Akolkar G"'
Search Results
2. VITAMIN C REDUCES DOXORUBICIN-INDUCED NITROSATIVE STRESS BY REGULATION OF NITRIC OXIDE SYNTHASE
- Author
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Akolkar, G., primary, Bagchi, A., additional, Jassal, D., additional, and Singal, P., additional
- Published
- 2015
- Full Text
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3. Endoplasmic Reticulum Stress Promotes iNOS/NO and Influences Inflammation in the Development of Doxorubicin-Induced Cardiomyopathy.
- Author
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Bagchi AK, Malik A, Akolkar G, Jassal DS, and Singal PK
- Abstract
Doxorubicin (Dox) is known to cause heart failure in some cancer patients. Despite extensive studies over the past half century, the subcellular basis of Dox-induced cardiomyopathy (DIC) is still elusive. Earlier, we suggested that Dox causes a delayed activation of unfolded protein response (UPR) which may promote mitochondrial Bax activity leading to cardiomyocyte death. As a follow up, using NO donor, S-Nitroso-N-acetyl-d,l-penicillamine (SNAP), and/or NOS inhibitor, N(ω)-nitro-L-arginine methyl ester (L-NAME), we now show that endoplasmic reticulum (ER) stress promotes inflammation through iNOS/NO-induced TLR2 activation. In vivo Dox treatment increased mitochondrial iNOS to promote ER stress as there was an increase in Bip (Grp78) response, proapoptotic CHOP (DDIT3) and ER-mediated Caspase 12 activation. Increased iNOS activity is associated with an increase in TLR2 and TNF-α receptor associated factor 2 (TRAF2). These two together with NF-κB p105/50 expression and a synergistic support through ER stress, promote inflammatory response in the myocardium leading to cell death and ultimately fostering DIC conditions. In the presence of NOS inhibitor, such detrimental effects of Dox were inhibited, suggesting iNOS/NO as key mediators of Dox-induced inflammatory as well as apoptotic responses.
- Published
- 2021
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4. Study of ER stress and apoptotic proteins in the heart and tumor exposed to doxorubicin.
- Author
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Bagchi AK, Malik A, Akolkar G, Zimmer A, Belló-Klein A, De Angelis K, Jassal DS, Fini MA, Stenmark KR, and Singal PK
- Subjects
- Activating Transcription Factor 6 metabolism, Animals, Apoptosis physiology, Apoptosis Regulatory Proteins metabolism, Cardiomyopathies metabolism, Cardiotoxicity pathology, Cell Line, Tumor, Doxorubicin metabolism, Doxorubicin pharmacology, Endoplasmic Reticulum drug effects, Endoplasmic Reticulum physiology, Endoplasmic Reticulum Stress physiology, Female, Humans, Male, Mitochondria metabolism, Myocytes, Cardiac drug effects, Myocytes, Cardiac metabolism, Myocytes, Cardiac physiology, Neoplasms metabolism, Neoplasms physiopathology, Oxidative Stress drug effects, Rats, Rats, Sprague-Dawley, Rats, Wistar, Reactive Oxygen Species metabolism, Transcription Factor CHOP metabolism, Apoptosis drug effects, Doxorubicin toxicity, Endoplasmic Reticulum Stress drug effects
- Abstract
Although a high cumulative dose of Doxorubicin (Dox) is known to cause cardiotoxicity, there is still a lack of understanding of the subcellular basis of this drug-induced cardiomyopathy. Differential effects of Dox on mitochondria and endoplasmic reticulum (ER) were examined in cardiomyocytes, tumor cells, implanted tumors and hearts of normal as well as tumor-bearing animals. Dox increased mitochondrial (Mito) Bax activation at 3 h in the cardiomyocyte without change in the DNA damage inducible transcriptor-3 (DDIT3) expression in the ER. Increased DDIT3 in these Dox-treated cardiomyocytes at 24 h suggested that increased MitoBax may have promoted ER stress related changes in DDIT3. Dissociation of immunoglobulin-binding protein (Bip) from activating transcription factor 6 (ATF6)-Bip complex in the ER was observed as an adaptive response to Dox. In contrast, breast cancer MCF7 cells showed an ER stress response to Dox with increased DDIT3 as early as 3 h which may have triggered a positive feedback activation of ATF6 at 12 and 24 h and promoted Calnexin. At these later time points, increased Bax activation in cancer cells suggested that MitoBax may be controlled by DDIT3 or by Calnexin. DDIT3 response in tumors was evoked by Dox, however this response was inversely correlated with increased Bip and Bax expression in hearts from tumor bearing animals. It is suggested that in Dox-induced cardiotoxicity both mitochondrial and ER stresses play an integral role through a mutual interaction where an inhibition of DDIT3 or Calnexin may also be crucial to achieve Dox resistance in cardiomyocytes., (Copyright © 2021 Elsevier B.V. All rights reserved.)
- Published
- 2021
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5. Vitamin C: historical perspectives and heart failure.
- Author
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Malik A, Bagchi AK, Vinayak K, Akolkar G, Slezak J, Belló-Klein A, Jassal DS, and Singal PK
- Subjects
- Antioxidants therapeutic use, Humans, Oxidative Stress, Reactive Oxygen Species, Ascorbic Acid, Heart Failure drug therapy
- Abstract
Vitamin C (Vit C) is an ideal antioxidant as it is easily available, water soluble, very potent, least toxic, regenerates other antioxidants particularly Vit E, and acts as a cofactor for different enzymes. It has received much attention due to its ability in limiting reactive oxygen species, oxidative stress, and nitrosative stress, as well as it helps to maintain some of the normal metabolic functions of the cell. However, over 140 clinical trials using Vit C in different pathological conditions such as myocardial infarction, gastritis, diabetes, hypertension, stroke, and cancer have yielded inconsistent results. Such a divergence calls for new strategies to establish practical significance of Vit C in heart failure or even in its prevention. For a better understanding of Vit C functioning, it is important to revisit its transport across the cell membrane and subcellular interactions. In this review, we have highlighted some historical details of Vit C and its transporters in the heart with a particular focus on heart failure in cancer chemotherapy.
- Published
- 2021
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6. Correction to: Vitamin c: historical perspectives and heart failure.
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Malik A, Bagchi AK, Vinayak K, Akolkar G, Slezak J, Belló-Klein A, Jassal DS, and Singal PK
- Published
- 2021
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7. Redefining Cardiac Biomarkers in Predicting Mortality of Inpatients With COVID-19.
- Author
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Qin JJ, Cheng X, Zhou F, Lei F, Akolkar G, Cai J, Zhang XJ, Blet A, Xie J, Zhang P, Liu YM, Huang Z, Zhao LP, Lin L, Xia M, Chen MM, Song X, Bai L, Chen Z, Zhang X, Xiang D, Chen J, Xu Q, Ma X, Touyz RM, Gao C, Wang H, Liu L, Mao W, Luo P, Yan Y, Ye P, Chen M, Chen G, Zhu L, She ZG, Huang X, Yuan Y, Zhang BH, Wang Y, Liu PP, and Li H
- Subjects
- Betacoronavirus isolation & purification, Biomarkers blood, COVID-19, China epidemiology, Female, Hospitalization statistics & numerical data, Humans, Male, Middle Aged, Mortality, Outcome Assessment, Health Care, Predictive Value of Tests, Prognosis, Retrospective Studies, SARS-CoV-2, Coronavirus Infections blood, Coronavirus Infections mortality, Coronavirus Infections therapy, Creatine Kinase, MB Form blood, Heart Diseases blood, Heart Diseases mortality, Heart Diseases virology, Natriuretic Peptide, Brain blood, Pandemics, Peptide Fragments blood, Pneumonia, Viral blood, Pneumonia, Viral mortality, Pneumonia, Viral therapy, Troponin I blood
- Abstract
The prognostic power of circulating cardiac biomarkers, their utility, and pattern of release in coronavirus disease 2019 (COVID-19) patients have not been clearly defined. In this multicentered retrospective study, we enrolled 3219 patients with diagnosed COVID-19 admitted to 9 hospitals from December 31, 2019 to March 4, 2020, to estimate the associations and prognostic power of circulating cardiac injury markers with the poor outcomes of COVID-19. In the mixed-effects Cox model, after adjusting for age, sex, and comorbidities, the adjusted hazard ratio of 28-day mortality for hs-cTnI (high-sensitivity cardiac troponin I) was 7.12 ([95% CI, 4.60-11.03] P <0.001), (NT-pro)BNP (N-terminal pro-B-type natriuretic peptide or brain natriuretic peptide) was 5.11 ([95% CI, 3.50-7.47] P <0.001), CK (creatine phosphokinase)-MB was 4.86 ([95% CI, 3.33-7.09] P <0.001), MYO (myoglobin) was 4.50 ([95% CI, 3.18-6.36] P <0.001), and CK was 3.56 ([95% CI, 2.53-5.02] P <0.001). The cutoffs of those cardiac biomarkers for effective prognosis of 28-day mortality of COVID-19 were found to be much lower than for regular heart disease at about 19%-50% of the currently recommended thresholds. Patients with elevated cardiac injury markers above the newly established cutoffs were associated with significantly increased risk of COVID-19 death. In conclusion, cardiac biomarker elevations are significantly associated with 28-day death in patients with COVID-19. The prognostic cutoff values of these biomarkers might be much lower than the current reference standards. These findings can assist in better management of COVID-19 patients to improve outcomes. Importantly, the newly established cutoff levels of COVID-19-associated cardiac biomarkers may serve as useful criteria for the future prospective studies and clinical trials.
- Published
- 2020
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8. Excessive consumption of fructose causes cardiometabolic dysfunctions through oxidative stress and inflammation.
- Author
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Bernardes N, Ayyappan P, De Angelis K, Bagchi A, Akolkar G, da Silva Dias D, Belló-Klein A, and Singal PK
- Subjects
- Animals, Blood Pressure, Healthy Lifestyle, Humans, Hypertension blood, Hypertension etiology, Hypertension physiopathology, Hyperuricemia blood, Hyperuricemia etiology, Hyperuricemia metabolism, Inflammation blood, Inflammation physiopathology, Inflammation therapy, Inflammation Mediators blood, Metabolic Syndrome blood, Metabolic Syndrome physiopathology, Metabolic Syndrome therapy, Prognosis, Risk Factors, Risk Reduction Behavior, Uric Acid blood, Dietary Sugars adverse effects, Fructose adverse effects, Inflammation etiology, Metabolic Syndrome etiology, Oxidative Stress
- Abstract
A rapid rise in obesity, as well as physical inactivity, in industrialized countries is associated with fructose-consumption-mediated metabolic syndrome having a strong association with cardiovascular disease. Although insulin resistance is thought to be at the core, visceral obesity, hypertension, and hypertriglyceridemia are also considered important components of this metabolic disorder. In addition, various other abnormalities such as inflammation, oxidative stress, and elevated levels of uric acid are also part of this syndrome. Lifestyle changes through improved physical activity, as well as nutrition, are important approaches to minimize metabolic syndrome and its deleterious effects.
- Published
- 2017
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9. Vitamin C mitigates oxidative/nitrosative stress and inflammation in doxorubicin-induced cardiomyopathy.
- Author
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Akolkar G, da Silva Dias D, Ayyappan P, Bagchi AK, Jassal DS, Salemi VMC, Irigoyen MC, De Angelis K, and Singal PK
- Subjects
- Animals, Cytokines biosynthesis, Electrocardiography drug effects, Male, Nitric Oxide Synthase biosynthesis, Nitric Oxide Synthase metabolism, Oxygen Consumption drug effects, Rats, Rats, Wistar, Reactive Nitrogen Species, Survival Analysis, Anti-Inflammatory Agents, Non-Steroidal pharmacology, Antibiotics, Antineoplastic, Antioxidants pharmacology, Ascorbic Acid pharmacology, Cardiomyopathies chemically induced, Cardiomyopathies drug therapy, Cardiotonic Agents pharmacology, Doxorubicin, Oxidative Stress drug effects, Stress, Physiological drug effects
- Abstract
Increase in oxidative/nitrosative stress is one of the mechanisms associated with the development of cardiotoxicity due to doxorubicin (Dox), a potent chemotherapy drug. Previously, we reported mitigation of Dox-induced oxidative/nitrosative stress and apoptosis by vitamin C (Vit C) in isolated cardiomyocytes. In the present in vivo study in rats, we investigated the effect of prophylactic treatment with Vit C on Dox-induced apoptosis, inflammation, oxidative/nitrosative stress, cardiac dysfunction, and Vit C transporter proteins. Dox (cumulative dose: 15 mg/kg) in rats reduced systolic and diastolic cardiac function and caused structural damage. These changes were associated with a myocardial increase in reactive oxygen species, reduction in antioxidant enzyme activities, increased expression of apoptotic proteins, and inflammation. Dox also caused an increase in the expression of proapoptotic proteins Bax, Bnip-3, Bak, and caspase-3. An increase in oxidative/nitrosative stress attributable to Dox was indicated by an increase in superoxide, protein carbonyl formation, lipid peroxidation, nitric oxide (NO), NO synthase (NOS) activity, protein nitrosylation, and inducible NOS protein expression. Dox increased the levels of cardiac proinflammatory cytokines TNF-α, IL-1β, and IL-6, whereas the expression of Vit C transporter proteins (sodium-ascorbate cotransporter 2 and glucose transporter 4) was reduced. Prophylactic and concurrent treatment with Vit C prevented all these changes and improved survival in the Vit C + Dox group. Vit C also improved Dox-mediated systolic and diastolic dysfunctions and structural damage. These results suggest a cardioprotective role of Vit C in Dox-induced cardiomyopathy by reducing oxidative/nitrosative stress, inflammation, and apoptosis, as well as improving Vit C transporter proteins. NEW & NOTEWORTHY This in vivo study provides novel data that vitamin C improves cardiac structure and function in doxorubicin-induced cardiomyopathy by reducing oxidative/nitrosative stress, apoptosis, and inflammation along with upregulation of cardiac vitamin C transporter proteins. The latter may have a crucial role in improving antioxidant status in this cardiomyopathy., (Copyright © 2017 the American Physiological Society.)
- Published
- 2017
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10. Time course of changes in oxidative stress and stress-induced proteins in cardiomyocytes exposed to doxorubicin and prevention by vitamin C.
- Author
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Ludke A, Akolkar G, Ayyappan P, Sharma AK, and Singal PK
- Subjects
- Animals, Antibiotics, Antineoplastic toxicity, Antioxidants pharmacology, Apoptosis drug effects, Autophagy drug effects, Biomarkers metabolism, Blotting, Western, Cells, Cultured, Male, Myocytes, Cardiac metabolism, Rats, Sprague-Dawley, Reactive Oxygen Species metabolism, Time Factors, Ascorbic Acid pharmacology, Doxorubicin toxicity, JNK Mitogen-Activated Protein Kinases metabolism, Myocytes, Cardiac drug effects, Oxidative Stress drug effects, Tumor Suppressor Protein p53 metabolism, p38 Mitogen-Activated Protein Kinases metabolism
- Abstract
We previously reported that Vitamin C (Vit C) protects against doxorubicin (Dox)-induced cardiotoxicity by reducing oxidative stress, p38 mitogen-activated kinase (MAPK) and p53 activation and rescuing cell death in isolated adult cardiomyocytes. The pattern of activation and the role of oxidative stress as well as down-stream mechanisms for such protection remain elusive. Therefore the present study aims to analyze time-dependant generation of reactive oxygen species (ROS) and the activation of stress induced signalling pathways in cardiomyocytes treated with Dox and Vit C. The data provides further understanding of heart pathophysiology in response to Dox at the cellular level, and may help to optimize the timing of various therapeutic approaches. Cardiomyocytes isolated from adult Sprague-Dawley rats were exposed to Dox (10 μM), Vit C (25 μM), and Dox + Vit C for different time intervals up to 24 h. p38-JNK (SB203580) and p53 (pifithrin-α) inhibitors were used to determine the role of each respective signalling protein. Dox administration to cardiomyocytes increased the levels of ROS in a time-dependent manner that followed the activation of stress-induced proteins p53, p38 and JNK MAPKs, culminating in an increase in autophagy and apoptosis markers. Dox-induced increase in ROS was alleviated by Vit C adjuvant treatment at all time-points and this was also correlated with blunting of the activation of the studied signaling pathways leading to the prevention of apoptosis and preservation of cell viability. Protective effect of Vit C against the activation of stress induced proteins, autophagy and apoptosis was mainly attributed to its antioxidant properties even though blockage of p38, JNK and p53 by pharmacological inhibitors also suppressed Dox-induced apoptosis. ROS is defined as a key inducer of cardiomyocyte damage under Dox exposure; Vit C could effectively counteract all Dox-induced changes in cardiomyocytes and may potentially be used as an antioxidant adjuvant therapy to protect against Dox-induced cardiomyopathy.
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- 2017
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11. Toll-like receptor 2 dominance over Toll-like receptor 4 in stressful conditions for its detrimental role in the heart.
- Author
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Bagchi AK, Akolkar G, Mandal S, Ayyappan P, Yang X, and Singal PK
- Subjects
- Animals, Apoptosis, Apoptosis Regulatory Proteins metabolism, Cells, Cultured, Cytokines metabolism, Disease Models, Animal, Fibrosis, Genotype, Inflammation Mediators metabolism, Interleukin-1 Receptor-Associated Kinases metabolism, Interleukin-10 deficiency, Interleukin-10 genetics, Male, Mice, Inbred C57BL, Mice, Knockout, Myeloid Differentiation Factor 88 genetics, Myeloid Differentiation Factor 88 metabolism, Myocardial Reperfusion Injury pathology, Myocardial Reperfusion Injury physiopathology, Myocardium pathology, Phenotype, Phosphorylation, RNA Interference, Rats, Sprague-Dawley, Signal Transduction, Toll-Like Receptor 2 genetics, Toll-Like Receptor 4 genetics, Transfection, Ventricular Function, Left, Myocardial Reperfusion Injury metabolism, Myocardium metabolism, Toll-Like Receptor 2 metabolism, Toll-Like Receptor 4 metabolism
- Abstract
It has been suggested that Toll-like receptor (TLR)4 promotes IL-10-mediated cardiac cell survival, whereas another receptor, TLR2, from the same family, is detrimental. Here, we examined the interactive role of these two innate signaling molecules under stressful conditions, including IL-10 knockout (IL-10
-/- ) mice, global ischemia-reperfusion (I/R) injury in rat hearts, and in vitro short hairpin RNA experimental models in the presence or absence of IL-10 (10 ng/ml). Circulating and myocardial levels of TNF-α as well as apoptosis and fibrosis were higher in IL-10-/- mice. The increase in TLR2 in IL-10-/- hearts indicated its negative regulation by IL-10. Ex vivo I/R also caused a marked upregulation of TLR2 and TNF-α as well as apoptotic and fibrotic signals. However, a 40-min reperfusion with IL-10 triggered an increase in TLR4 expression and improved recovery of cardiac function. The increase in IL-1 receptor-associated kinase (IRAK)-M and IRAK-2 activity during I/R injury suggested their role in TLR2 signaling. In vitro inhibition of TLR4 activity as a consequence of RNA inhibition-mediated suppression of myeloid differentiation gene (MyD)88 suggested MyD88-dependent activation of TLR4. The inclusion of IL-10 during reperfusion also downregulated the expression of IRAK-2, TNF-α receptor-associated factor 1-interacting protein (TRAIP) and apoptotic signals, caspase-3, and the Bax-to-Bcl-xL ratio. IL-10 reduced the TNF-α receptor-associated increase in TRAIP-induced apoptosis during I/R injury, which led to an increase in IL-1β to mitigate transforming growth factor-β receptor type I-mediated fibrosis. The IL-10 mitigation of these changes suggests that the stimulation through TLR4 signaling promotes IRAK-4 and phosphorylates IRAK-1 instead of IRAK-2 and may be an important therapeutic approach in restoring heart health in stress. NEW & NOTEWORTHY Under stress conditions such as downregulation of the IL-10 gene or ischemia-reperfusion injury, Toll-like receptor (TLR)4 and IL-1 receptor-associated kinase (IRAK)-1 activation is suppressed, along with the upregulation of TLR-2 and IRAK-2, resulting in fibrosis and apoptosis. It is suggested that IL-10 helps to maintain heart function during stress via myeloid differentiation gene 88/IRAK-4/IRAK-1-dependent TLR4 signaling., (Copyright © 2017 the American Physiological Society.)- Published
- 2017
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12. Doxorubicin-induced nitrosative stress is mitigated by vitamin C via the modulation of nitric oxide synthases.
- Author
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Akolkar G, Bagchi AK, Ayyappan P, Jassal DS, and Singal PK
- Subjects
- Animals, Antibiotics, Antineoplastic administration & dosage, Cells, Cultured, Dose-Response Relationship, Drug, Gene Expression Regulation, Enzymologic drug effects, Gene Expression Regulation, Enzymologic physiology, Male, Myocytes, Cardiac drug effects, Oxidative Stress drug effects, Rats, Rats, Sprague-Dawley, Reactive Nitrogen Species metabolism, Reactive Oxygen Species metabolism, Ascorbic Acid metabolism, Doxorubicin administration & dosage, Myocytes, Cardiac metabolism, Nitric Oxide metabolism, Nitric Oxide Synthase metabolism, Oxidative Stress physiology
- Abstract
An increase in oxidative stress is suggested to be the main cause in Doxorubicin (Dox)-induced cardiotoxicity. However, there is now evidence that activation of inducible nitric oxide synthase (iNOS) and nitrosative stress are also involved. The role of vitamin C (Vit C) in the regulation of nitric oxide synthase (NOS) and reduction of nitrosative stress in Dox-induced cardiotoxicity is unknown. The present study investigated the effects of Vit C in the mitigation of Dox-induced changes in the levels of nitric oxide (NO), NOS activity, protein expression of NOS isoforms, and nitrosative stress as well as cytokines TNF-α and IL-10 in isolated cardiomyocytes. Cardiomyocytes isolated from adult Sprague-Dawley rats were segregated into four groups: 1 ) control, 2 ) Vit C (25 µM), 3 ) Dox (10 µM), and 4 ) Vit C + Dox. Dox caused a significant increase in the generation of superoxide radical (O
2 ·- ), peroxynitrite, and NO, and these effects of Dox were blunted by Vit C. Dox increased the expression of iNOS and altered protein expression as well as activation of endothelial NOS (eNOS). These changes were prevented by Vit C. Dox induced an increase in the ratio of monomeric/dimeric eNOS, promoting the production of O2 ·- , which was prevented by Vit C by increasing the stability of the dimeric form of eNOS. Vit C protected against the Dox-induced increase in TNFα as well as a reduction in IL-10. These results suggest that Vit C provides cardioprotection by reducing oxidative/nitrosative stress and inflammation via a modulation of Dox-induced increase in the NO levels and NOS activity., (Copyright © 2017 the American Physiological Society.)- Published
- 2017
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13. Insulin resistance: an additional risk factor in the pathogenesis of cardiovascular disease in type 2 diabetes.
- Author
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Patel TP, Rawal K, Bagchi AK, Akolkar G, Bernardes N, Dias DDS, Gupta S, and Singal PK
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- Humans, Insulin Resistance physiology, Risk Factors, Signal Transduction physiology, Cardiovascular Diseases etiology, Cardiovascular Diseases metabolism, Diabetes Mellitus, Type 2 complications, Diabetes Mellitus, Type 2 metabolism, Insulin metabolism, Oxidative Stress
- Abstract
Sedentary life style and high calorie dietary habits are prominent leading cause of metabolic syndrome in modern world. Obesity plays a central role in occurrence of various diseases like hyperinsulinemia, hyperglycemia and hyperlipidemia, which lead to insulin resistance and metabolic derangements like cardiovascular diseases (CVDs) mediated by oxidative stress. The mortality rate due to CVDs is on the rise in developing countries. Insulin resistance (IR) leads to micro or macro angiopathy, peripheral arterial dysfunction, hampered blood flow, hypertension, as well as the cardiomyocyte and the endothelial cell dysfunctions, thus increasing risk factors for coronary artery blockage, stroke and heart failure suggesting that there is a strong association between IR and CVDs. The plausible linkages between these two pathophysiological conditions are altered levels of insulin signaling proteins such as IR-β, IRS-1, PI3K, Akt, Glut4 and PGC-1α that hamper insulin-mediated glucose uptake as well as other functions of insulin in the cardiomyocytes and the endothelial cells of the heart. Reduced AMPK, PFK-2 and elevated levels of NADP(H)-dependent oxidases produced by activated M1 macrophages of the adipose tissue and elevated levels of circulating angiotensin are also cause of CVD in diabetes mellitus condition. Insulin sensitizers, angiotensin blockers, superoxide scavengers are used as therapeutics in the amelioration of CVD. It evidently becomes important to unravel the mechanisms of the association between IR and CVDs in order to formulate novel efficient drugs to treat patients suffering from insulin resistance-mediated cardiovascular diseases. The possible associations between insulin resistance and cardiovascular diseases are reviewed here.
- Published
- 2016
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14. The role of renin angiotensin system antagonists in the prevention of doxorubicin and trastuzumab induced cardiotoxicity.
- Author
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Akolkar G, Bhullar N, Bews H, Shaikh B, Premecz S, Bordun KA, Cheung DY, Goyal V, Sharma AK, Garber P, Singal PK, and Jassal DS
- Subjects
- Animals, Antineoplastic Agents administration & dosage, Male, Mice, Mice, Inbred C57BL, Renin antagonists & inhibitors, Renin-Angiotensin System drug effects, Treatment Outcome, Ultrasonography, Ventricular Dysfunction, Left diagnostic imaging, Angiotensin Receptor Antagonists administration & dosage, Angiotensin-Converting Enzyme Inhibitors administration & dosage, Doxorubicin adverse effects, Trastuzumab adverse effects, Ventricular Dysfunction, Left chemically induced, Ventricular Dysfunction, Left prevention & control
- Abstract
Background: Cardio-Oncology is an evolving discipline that focuses on the management of cancer patients who develop cardiovascular complications as a result of their treatment. Although the current combination of surgical resection, radiation, and chemotherapy may lead to a cure in cancer patients, the administration of anti-cancer drugs, in particular Doxorubicin (DOX) and Trastuzumab (TRZ), is associated with an increased risk of cardiotoxicity. Little is known on the potential cardioprotective role of renin angiotensin system (RAS) antagonists in the prevention of DOX+TRZ mediated cardiotoxicity., Objective: The aim of the study was to determine whether RAS antagonists would be useful in attenuating DOX+TRZ induced cardiotoxicity., Methods: A total of 240 C57Bl/6 mice were randomized to prophylactic treatment with placebo, Aliskiren, Perindopril, or Valsartan for a total of 13 weeks. Within each arm, mice received treatment with either DOX, TRZ, or the combination of both drugs. Serial murine echocardiography was performed weekly to characterize the degree of cardiovascular remodeling within each group., Results: In wild-type (WT) mice treated with DOX+TRZ, LV end diastolic internal diameter (LVID) increased from 3.1 ± 0.2 mm at baseline to 4.6 ± 0.3 mm at week 13 (p < 0.05) and the LV fractional shortening (FS) decreased from 52 ± 2% at baseline to 26 ± 2% at week 13 (p < 0.05). Prophylactic treatment with Aliskiren, Perindopril, or Valsartan attenuated the degree of LV cavity dilatation with LVID dimensions of 3.9 ± 0.2 mm, 4.1 ± 0.2 mm, and 4.2 ± 0.1 mm at week 13, respectively (p < 0.05). Similarly, prophylactic treatment with Aliskiren, Perindopril, or Valsartan was partially cardioprotective with FS of 40 ± 1%, 32 ± 1%, and 33 ± 2% at week 13, respectively (p < 0.05). As compared to WT mice receiving DOX+TRZ, prophylactic treatment with RAS inhibition was also associated with improved survival, corroborating the echocardiographic findings., Conclusion: The cardiotoxic effects of DOX+TRZ were partially attenuated by the prophylactic administration of RAS antagonists in a chronic murine model of chemotherapy induced cardiac dysfunction.
- Published
- 2015
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15. Downregulation of vitamin C transporter SVCT-2 in doxorubicin-induced cardiomyocyte injury.
- Author
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Ludke AR, Sharma AK, Akolkar G, Bajpai G, and Singal PK
- Subjects
- Animals, Ascorbic Acid metabolism, Cells, Cultured, Down-Regulation drug effects, Doxorubicin antagonists & inhibitors, Male, Myocytes, Cardiac drug effects, Oxidative Stress drug effects, Oxidative Stress physiology, Rats, Rats, Sprague-Dawley, Sodium-Coupled Vitamin C Transporters biosynthesis, Sodium-Coupled Vitamin C Transporters metabolism, Ascorbic Acid pharmacology, Down-Regulation physiology, Doxorubicin toxicity, Myocytes, Cardiac metabolism, Myocytes, Cardiac pathology, Sodium-Coupled Vitamin C Transporters antagonists & inhibitors
- Abstract
Vitamin C (Vit C) has been shown to be protective against doxorubicin (Dox)-induced cardiotoxicity. However, Vit C uptake into cardiomyocytes is poorly understood. Furthermore, whether the antioxidant enzyme reserve is enhanced by Vit C is also not known. The present study investigated an influence of Dox on Vit C transporters, expression of endogenous antioxidant reserve as well as enzymes, oxidative stress, and apoptosis in isolated cardiomyocytes. Cardiomyocytes isolated from adult Sprague-Dawley rats were exposed to control (culture medium 199 alone), Dox (10 μM), Vit C (25 μM), and Vit C + Dox for 24 h. Vit C transporter expression and localization, oxidative stress, antioxidant enzymes, and apoptosis were studied. Expression and localization of sodium-dependent vitamin C transporter-2 (SVCT-2) in the sarcolemma was reduced by Dox, but Vit C supplementation was able to blunt this change. There was a decrease in the expression of antioxidant enzymes glutathione peroxidase (GPx), catalase, and Cu/Zn superoxide dismutase (SOD) due to Dox, but only GPx expression was completely prevented and Cu/Zn SOD was partially rescued by Vit C. Dox-induced decrease in antioxidant reserve and increase in oxidative stress were partially mitigated by Vit C. Dox-induced apoptosis was ameliorated by Vit C. It is suggested that cardioprotection offered by Vit C in Dox-induced cardiomyopathy may involve an upregulation of SVCT-2 transporter followed by a reduction in oxidative stress as well as blunting of cardiomyocyte injury.
- Published
- 2012
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16. Thapsigargin decreases the Na(+)- Ca(2+) exchanger mediated Ca(2+) entry in pig coronary artery smooth muscle.
- Author
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Akolkar G, Pande J, Samson SE, and Grover AK
- Subjects
- Animals, Coronary Vessels pathology, Ion Transport drug effects, Muscle, Smooth, Vascular pathology, Reperfusion Injury metabolism, Reperfusion Injury pathology, Sarcolemma metabolism, Sarcoplasmic Reticulum Calcium-Transporting ATPases antagonists & inhibitors, Sarcoplasmic Reticulum Calcium-Transporting ATPases metabolism, Swine, Calcium metabolism, Coronary Vessels metabolism, Enzyme Inhibitors pharmacology, Muscle, Smooth, Vascular metabolism, Sodium metabolism, Sodium-Calcium Exchanger antagonists & inhibitors, Sodium-Calcium Exchanger metabolism, Thapsigargin pharmacology
- Abstract
Na(+)- Ca(2+) exchanger (NCX) has been proposed to play a role in refilling the sarco/endoplasmic reticulum (SER) Ca(2+) pool along with the SER Ca(2+) pump (SERCA). Here, SERCA inhibitor thapsigargin was used to determine the effects of SER Ca(2+) depletion on NCX-SERCA interactions in smooth muscle cells cultured from pig coronary artery. The cells were Na(+)-loaded and then placed in either a Na(+)-containing or in a Na(+)-substituted solution. Subsequently, the difference in Ca(2+) entry between the two groups was examined and defined as the NCX mediated Ca(2+) entry. The NCX mediated Ca(2+) entry in the smooth muscle cells was monitored using two methods: Ca(2+)sensitive fluorescence dye Fluo-4 and radioactive Ca(2+). Ca(2+)-entry was greater in the Na(+)-substituted cells than in the Na(+)-containing cells when measured by either method. This difference was established to be NCX-mediated as it was sensitive to the NCX inhibitors. Thapsigargin diminished the NCX mediated Ca(2+) entry as determined by either method. Immunofluorescence confocal microscopy was used to determine the co-localization of NCX1 and subsarcolemmal SERCA2 in the cells incubated in the Na(+)-substituted solution with or without thapsigargin. SER Ca(2+) depletion with thapsigargin increased the co-localization between NCX1 and the subsarcolemmal SERCA2. Thus, inhibition of SERCA2 leads to blockade of constant Ca(2+) entry through NCX1 and also increases proximity between NCX1 and SERCA2. This blockade of Ca(2+) entry may protect the cells against Ca(2+)-overload during ischemia-reperfusion when SERCA2 is known to be damaged., (Copyright © 2011 Elsevier B.V. All rights reserved.)
- Published
- 2012
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17. Store operated Ca2+ entry dependent contraction of coronary artery smooth muscle: inhibition by peroxide pretreatment.
- Author
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Pande J, Dimmers G, Akolkar G, Skelley L, Samson SE, and Grover AK
- Subjects
- Animals, Coronary Vessels pathology, Cytosol metabolism, Hydrogen Peroxide pharmacology, Muscle, Smooth, Vascular pathology, Muscle, Smooth, Vascular physiopathology, Myocardial Reperfusion Injury metabolism, Myocardial Reperfusion Injury pathology, Myocardial Reperfusion Injury physiopathology, Oxidants pharmacology, Swine, Anti-Arrhythmia Agents pharmacology, Calcium metabolism, Coronary Vessels metabolism, Indoles pharmacology, Muscle Contraction drug effects, Muscle, Smooth, Vascular metabolism, Sarcoplasmic Reticulum Calcium-Transporting ATPases metabolism
- Abstract
The sarco/endoplasmic reticulum (SER) Ca(2+) pool is refilled by the SER Ca(2+) pump (SERCA) using cytosolic Ca(2+) and/or extracellular Ca(2+) entering the cell. The effects of the SERCA pump inhibitor cyclopiazonic acid (CPA) were studied in pig coronary artery smooth muscle using two protocols. In protocol A, the SERCA pump was inhibited by adding CPA to cells/tissues in Ca(2+)-containing solution, whereas in protocol B, CPA was added to cells/tissues in Ca(2+)-free solution, followed by reintroduction of extracellular Ca(2+). Addition of CPA increased cytosolic Ca(2+) in cultured smooth muscle cells and elicited contraction in de-endothelialized coronary arteries in both protocols. Based on pharmacological experiments, the CPA-induced contraction of de-endothelialized arteries in protocol B resulted from store operated Ca(2+) entry (SOCE). Reactive oxygen species such as peroxides are known to damage the SERCA pump in this tissue. Consistently, CPA-induced contractions were decreased in arteries pre-treated with hydrogen peroxide in protocol A. However, this pretreatment also decreased the force of contraction due to SOCE in protocol B, suggesting that it closed SOCE. We propose that the closure of SOCE triggered by exposure to reactive oxygen species may be a protective mechanism, so that Ca(2+) entry by this pathway is disallowed when SERCA is damaged in pathologies such as ischemia-reperfusion., (Copyright © 2011 Elsevier Ltd. All rights reserved.)
- Published
- 2012
- Full Text
- View/download PDF
18. Caloxin 1b3: a novel plasma membrane Ca(2+)-pump isoform 1 selective inhibitor that increases cytosolic Ca(2+) in endothelial cells.
- Author
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Szewczyk MM, Pande J, Akolkar G, and Grover AK
- Subjects
- Animals, Ca(2+) Mg(2+)-ATPase antagonists & inhibitors, Ca(2+) Mg(2+)-ATPase metabolism, Cell Membrane drug effects, Cell Membrane enzymology, Coronary Vessels cytology, Coronary Vessels enzymology, Endothelial Cells enzymology, Endothelium, Vascular cytology, Endothelium, Vascular enzymology, Humans, In Vitro Techniques, Intestinal Mucosa drug effects, Intestinal Mucosa enzymology, Isoenzymes antagonists & inhibitors, Isoenzymes metabolism, Myocytes, Smooth Muscle drug effects, Myocytes, Smooth Muscle enzymology, Organ Specificity, Plasma Membrane Calcium-Transporting ATPases metabolism, Rabbits, Solute Carrier Organic Anion Transporter Family Member 1B3, Swine, Calcium metabolism, Endothelial Cells drug effects, Organic Anion Transporters, Sodium-Independent pharmacology, Plasma Membrane Calcium-Transporting ATPases antagonists & inhibitors
- Abstract
The purpose of this study was to invent an extracellular inhibitor selective for the plasma membrane Ca(2+) pump(s) (PMCA) isoform 1. PMCA extrude Ca(2+) from cells during signalling and homeostasis. PMCA isoforms are encoded by 4 genes (PMCA1-4). Pig coronary artery endothelium and smooth muscle express the genes PMCA1 and 4. We showed that the endothelial cells contained mostly PMCA1 protein while smooth muscle cells had mostly PMCA4. A random peptide phage display library was screened for binding to synthetic extracellular domain 1 of PMCA1. The selected phage population was screened further by affinity chromatography using PMCA from rabbit duodenal mucosa which expressed mostly PMCA1. The peptide displayed by the selected phage was termed caloxin 1b3. Caloxin 1b3 inhibited PMCA Ca(2+)-Mg(2+)-ATPase in the rabbit duodenal mucosa (PMCA1) with a greater affinity (inhibition constant=17±2 μM) than the PMCA in the human erythrocyte ghosts (PMCA4, inhibition constant=45±4 μM). The affinity of caloxin 1b3 was also higher for PMCA1 than for PMCA2 and 3 indicating its selectivity for PMCA1. Consistent with an inhibition of PMCA1, caloxin 1b3 addition to the medium increased cytosolic Ca(2+) concentration in endothelial cells. Caloxin 1b3 is the first known PMCA1 selective inhibitor. We anticipate caloxin 1b3 to aid in understanding PMCA physiology in endothelium and other tissues., (Copyright © 2010 Elsevier Ltd. All rights reserved.)
- Published
- 2010
- Full Text
- View/download PDF
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