Palanivel Gajalakshmi scite author profile

Liver fibrosis is now well recognized as the causative factor for increased mortality from complications associated with liver pathologies. Activated hepatic stellate cells (HSCs) play a critical role in the progression of liver fibrosis. Therefore, targeting these activated HSCs to prevent and (or) treat liver disease is a worthwhile approach to explore. In the present in vitro study, we investigated the use of bipotential murine oval liver cells (BMOL) in regulating the functions of activated HSCs to prevent progression of liver fibrosis. We used a conditioned medium-based approach to study the effect of BMOL cells on activated HSC survival and function. Our data showed that BMOL cells block the contraction of activated HSCs by inducing apoptosis of these cells. We demonstrated that BMOL cells secrete soluble factors, such as interleukin-6 (IL-6), which induced apoptosis of activated HSCs. Using both pharmacological and molecular inhibitor approaches, we further identified that IL-6-mediated activation of NF-κB-iNOS-NO-ROS signaling in activated HSCs plays a critical role in BMOL-cell-mediated apoptosis of activated HSCs. Thus, the present study provides an alternative cell-based therapeutic approach to treat liver fibrosis.

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Increased Plasma Nitrite and von Willebrand Factor Indicates Early Diagnosis of Vascular Diseases in Chemotherapy Treated Cancer Patients

Giri

Bose

Ajay

et al. 2018

Cardiovasc Toxicol

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Chemotherapy induced cardiotoxicity leads to development of hypertension, conduction abnormalities, and congestive heart failure. However, there is no simple test to detect and assess cardiovascular risk in a chemotherapy treated cancer patient. The aim of the present study on cancer patients treated with (n = 66) and without (n = 66) chemotherapy is to identify indicators from plasma for vascular injury. The levels of plasma nitrite, asymmetric dimethyl arginine (ADMA), von Willebrand factor (vWF), cardiac troponins, lipid peroxidation (MDA), and lactate dehydrogenase (LDH) were estimated. An R package, namely, Optimal Cutpoints, and a machine learning method-support vector machine (SVM) were applied for identifying the indicators for cardiovascular damage. We observed a significant increase in nitrite (p < 0.001) and vWF (p < 0.001) level in chemotherapy treated patients compared to untreated cancer patients and healthy controls. An increased MDA and LDH activity from plasma in chemotherapy treated cancer patients was found. The R package analysis and SVM model developed using three indicators, namely, nitrite, vWF, and MDA, can distinguish cancer patients before and after chemotherapy with an accuracy of 87.8% and AUC value of 0.915. Serum collected from chemotherapy treated patients attenuates angiogenesis in chick embryo angiogenesis (CEA) assay and inhibits migration of human endothelial cells. Our work suggests that measurement of nitrite along with traditional endothelial marker vWF could be used as a diagnostic strategy for identifying susceptible patients to develop cardiovascular dysfunctions. The results of the present study offer clues for early diagnosis of subclinical vascular toxicity with minimally invasive procedure. Schematic representation of chemotherapy induced elevated plasma nitrite level in cancer patients.

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Breast cancer drugs perturb fundamental vascular functions of endothelial cells by attenuating protein S‐nitrosylation

Giri

Katakia

Chatterjee

et al. 2019

Clin Exp Pharma Physio

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Chemotherapy-induced vascular toxicity has a significant impact on cardiovascular health of cancer patients. 1 Therefore, managing cancer patients under chemotherapy treatments is a big clinical challenge, particularly when the chemotherapeutic regime hits the cardiac and vascular systems hard. 2 Vascular complications of cancer chemotherapy include Raynaud phenomenon, hypertension, myocardial infarction, cerebrovascular attack, and hepatic veno-occlusive disease. 3-5 Blood vessels are lined by endothelium which serves as a barrier between the circulating blood and the underlying tissue. Nitric oxide (NO) is important in maintaining the functional activities of the endothelium and is constitutively produced by endothelial nitric oxide synthase enzyme. 6,7 Nitric oxide is known to regulate the vascular tone, contribute to anti-thrombotic and anti-inflammatory activity, and prevent endothelial cell apoptosis. 8,9 Defective endothelium with decreased NO production leads to vascular diseases such as hypertension, atherosclerosis, and vasospasm with compromised blood flow. Nitric oxide is known to operate through two different

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Studying molecular signaling in major angiogenic diseases

2022

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