The Influence of Adenoviral Infection and the Group VIA Calcium-Independent Phospholipase A2 on Hepatic Lipid Metabolism

Wilkins, William Palmer, III

01 January 2007

Sterol regulatory element-binding proteins (SREBP) are transcription factors that regulate genes involved in lipid metabolism especially in the liver. Therefore, hepatic SREBP is significant regulator of systemic lipid metabolism. Evidence demonstrates that insulin and dietary unsaturated fatty acid (UFA) regulate SREBP1 expression and subsequent SREBP1-mediated gene transcription, events that in many instances result in modulation of systemic fatty acid and triglyceride (TG) homeostasis. A series of investigations was designed to uncover novel regulators of SREBP1. Dietary and exogenous addition of UFA has been shown to regulate SREBP function yet, an endogenous source of UFA capable of modulating SREBP remains elusive. Group VIA calcium-independent phospholipase A2 (iPLA2) releases UFA from the sn-2 position of glycerophospholipids. We hypothesized that iPLA2 provides UFA to suppress SREBP. iPLA2 overexpression and inhibition studies were implemented. iPLA2 inhibition increased SREBP1 expression, SREBP-mediated transcription and the expression of SREBP1 gene targets in vitro. In vivo overexpression of iPLA2 resulted in decreased expression of SREBP1 protein and plasma triglyceride. In contrast, iPLA2 overexpression attenuated SREBP1 expression, SREBP-mediated transcription and expression of SREBP1 targets genes. These data support the hypothesis that iPLA2 generates endogenous UFA that limit SREBP function. Use of a replication-deficient adenovirus 5 (Ad-5) expression vector in the iPLA2 study led to the unexpected observation of hepatic SREBP1 activation following Ad-5 infection. Because of this observation, we tested the hypothesis that replication-deficient Ad-5 might augment lipid synthesis in liver. We demonstrate that first generation Ad-5, a ubiquitous transgene expression vector, induces expression of SREBP1 and its target genes and leads to increases in fatty acid synthesis in vivo and in vitro. The phosphatidylinositol 3-kinase (PI3K) inhibitor, PX-866, suppressed Ad-5-induced SRBEP1 expression and hypertriglyceridemia implicating the PI3K/Akt pathway in Ad-5 activation of SREBP1. Use of PX-866 led to the discovery of a third mechanism of SREBP1 regulation. In vivo studies demonstrate that PX-866 modulates basal lipid metabolism in part through decreasing plasma TG, an increased trend toward decreased SREBP1 expression and a significant increase in plasma cholesterol. These studies characterize three distinct novel regulatory mechanisms of SREBP1.

hepatocyte

calcium-independent phospholipase A2

PX-866

SREBP

Life Sciences

Towards the Regulation and Physiological Role of the Mitochondrial Calcium- Independent Phospholipase A₂

Rauckhorst, Adam J.

January 2014

No description available.

Biochemistry

Biomedical Research

Mitochondria

bioenergetics

electron transport chain

phospholipase A2

Calcium-independent phospholipase A2

mitochondrial dynamics

mitophagy

mitochondrial permeability transition

Vliv chronické hypoxie na antioxidační kapacitu myokardu potkana. / Effect of chronic hypoxia on antioxidative capacity of rat myocardium.

Závišková, Kristýna

January 2014

Adaptation to chronic hypoxia activates endogenous signaling cascades, which lead to cardiac protection against acute ischemia/reperfusion (I/R) injury. The molecular mechanism of this phenomenon has not been fully clarified yet. However, it was proved that reactive oxygen species (ROS) take part in cardioprotective signaling pathway inducted by chronic hypoxia. The high level of ROS must be precisely regulated by antioxidative system of a cell. The aim of diploma thesis was to examine the effect of intermittent hypobaric hypoxia (IHH, 7 000 m) on relative amount of antioxidative enzymes (peroxiredoxin 6 - PRX6, thioredoxin 1 and 2 - TRX1 and TRX2, thioredoxin reductase 1 - TRXR1) and also enzymes of iron metabolism (heme oxygenase 1 and 2 - HO1 and HO2, aconitase 1 and 2 - ACO1 and ACO2), which participate in regulation of cell redox state. Moreover, we studied the effect of adaptation to IHH and an antioxidant tempol on relative amount of calcium-independent phospholipase A2 (iPLA2). iPLA2 can remove peroxidized fatty acids from membrane phospholipids. On the other hand, iPLA2 can damage cell in I/R conditions. All enzymes were studied in homogenates from normoxic and IHH adapted rat left ventricular myocardium by Western blot. Adaptation to IHH caused a decrease of PRX6 and on the opposite an increase of...