Anna Alexanian scite author profile

Objective Hypoglycemia is associated with increased mortality. The reasons for this remain unclear and the effects of low glucose exposure on vascular endothelial function remain largely unknown. We endeavored to determine the effects of low glucose on endothelial cells and intact human arterioles. Methods and Results We exposed human umbilical vein endothelial cells to low glucose conditions in a clinically relevant range (40–70 mg/dL) and found rapid and marked reductions in nitric oxide (NO) bioavailability (P<0.001). This was associated with concomitantly increased mitochondrial superoxide production (P<0.001) and NO-dependent mitochondrial hyperpolarization (P<0.001). Reduced NO bioavailability was rapid and attributable to reduced eNOS activity and destruction of NO. Low glucose rapidly activated AMP Kinase but physiological activation failed to restore NO bioavailability. Pharmacological AMP Kinase activation led to phosphorylation of eNOS’s Ser633 activation site, reversing the adverse effects of low glucose, and this protective effect was prevented by L-NAME. Intact human arterioles exposed to low glucose demonstrated marked endothelial dysfunction which was prevented by either metformin or TEMPOL. Conclusions Our data suggest that moderate low glucose exposure rapidly impairs NO bioavailability and endothelial function in the human endothelium, and that pharmacological AMP Kinase activation can inhibit this effect in an NO-dependent manner.

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Cyclooxygenase 2: protein-protein interactions and posttranslational modifications

Alexanian

Sorokin

2017

Physiological Genomics

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Numerous studies implicate the cyclooxygenase 2 (COX2) enzyme and COX2-derived prostanoids in various human diseases, and thus, much effort has been made to uncover the regulatory mechanisms of this enzyme. COX2 has been shown to be regulated at both the transcriptional and posttranscriptional levels, leading to the development of nonsteroidal anti-inflammatory drugs (NSAIDs) and selective COX2 inhibitors (COXIBs), which inhibit the COX2 enzyme through direct targeting. Recently, evidence of posttranslational regulation of COX2 enzymatic activity by s-nitrosylation, glycosylation, and phosphorylation has also been presented. Additionally, posttranslational regulators that actively downregulate COX2 expression by facilitating increased proteasome degradation of this enzyme have also been reported. Moreover, recent data identified proteins, located in close proximity to COX2 enzyme, that serve as posttranslational modulators of COX2 function, upregulating its enzymatic activity. While the precise mechanisms of the protein-protein interaction between COX2 and these regulatory proteins still need to be addressed, it is likely these interactions could regulate COX2 activity either as a result of conformational changes of the enzyme or by impacting subcellular localization of COX2 and thus affecting its interactions with regulatory proteins, which further modulate its activity. It is possible that posttranslational regulation of COX2 enzyme by such proteins could contribute to manifestation of different diseases. The uncovering of posttranslational regulation of COX2 enzyme will promote the development of more efficient therapeutic strategies of indirectly targeting the COX2 enzyme, as well as provide the basis for the generation of novel diagnostic tools as biomarkers of disease.

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Pyk2 mediates endothelin‐1 signaling via p130Cas/BCAR3 cascade and regulates human glomerular mesangial cell adhesion and spreading

Rufanova

Alexanian

Wakatsuki

et al. 2008

Journal Cellular Physiology

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Calcium-regulated non-receptor Proline-rich Tyrosine Kinase 2 (Pyk2) is a critical mediator of Endothelin-1 (ET-1) signaling in human glomerular mesangial cells (GMC). We aimed to identify which small G-protein is acting downstream of Pyk2. Dominant interfering Pyk2 construct, termed Calcium Regulated Non Kinase (CRNK) or green fluorescent protein (control) were expressed in GMC using adenovirus-mediated gene transfer. ET-1 stimulation resulted in a significant increase of Pyk2 phosphorylation accompanied by GTP-loading of Rap1 and RhoA. CRNK expression inhibited ET-1-induced autophosphorylation of endogenous Pyk2 and diminished Rap1, but not RhoA, activation. The mechanism linking Pyk2 and Rap1 included 1) increased autophosphorylation of Pyk2 associated with p130Cas; 2) augmented p130Cas Y165 and Y249 phosphorylation; 3) enhanced p130Cas-BCAR3 complex formation. CRNK expression prevented p130Cas phosphorylation and attenuated p130Cas association with BCAR3. Downregulation of endogenous BCAR3 protein expression using an siRNA technique led to a significant decrease in Rap1 activation in response to ET-1. We observed that endogenous Pyk2 was important for GMC adhesion and spreading. Our data suggest that ET-1 stimulated the GTPase Rap1 (but neither RhoA nor Ras) by a mechanism involving Pyk2 activation and recruitment of the p130Cas/BCAR3 complex in GMC.

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Targeting 20-HETE producing enzymes in cancer – rationale, pharmacology, and clinical potential

Alexanian¹,

Sorokin²

2013

OTT

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Studies demonstrate that lipid mediator 20-Hydroxyeicosatetraenoic acid (20-HETE) synthesis and signaling are associated with the growth of cancer cells in vitro and in vivo. Stable 20-HETE agonists promote the proliferation of cancer cells, whereas selective inhibitors of the 20-HETE-producing enzymes of the Cytochrome (CYP450)4A and CYP4F families can block the proliferation of glioblastoma, prostate, renal cell carcinoma, and breast cancer cell lines. A recent observation that the expression of CYP4A/4F genes was markedly elevated in thyroid, breast, colon, and ovarian cancer further highlights the significance of 20-HETE-producing enzymes in the progression of different types of human cancer. These findings provide the rationale for targeting 20-HETE-producing enzymes in human cancers and set the basis for the development of novel therapeutic strategies for anticancer treatment.

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Post-translational regulation of COX2 activity by FYN in prostate cancer cells

et al. 2014

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While increased COX2 expression and prostaglandin levels are elevated in human cancers, the mechanisms of COX2 regulation at the post-translational level are unknown. Initial observation that COX2 forms adduct with non-receptor tyrosine kinase FYN, prompted us to study FYN-mediated post-translational regulation of COX2. We found that FYN increased COX2 activity in prostate cancer cells DU145, independent of changes in COX2 or COX1 protein expression levels. We report that FYN phosphorylates human COX2 on Tyr 446, and while corresponding phospho-mimetic COX2 mutation promotes COX2 activity, the phosphorylation blocking mutation prevents FYN-mediated increase in COX2 activity.

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Anna Alexanian

Acute Exposure to Low Glucose Rapidly Induces Endothelial Dysfunction and Mitochondrial Oxidative Stress

Cyclooxygenase 2: protein-protein interactions and posttranslational modifications

Pyk2 mediates endothelin‐1 signaling via p130Cas/BCAR3 cascade and regulates human glomerular mesangial cell adhesion and spreading

Targeting 20-HETE producing enzymes in cancer – rationale, pharmacology, and clinical potential

Post-translational regulation of COX2 activity by FYN in prostate cancer cells

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Anna Alexanian

Acute Exposure to Low Glucose Rapidly Induces Endothelial Dysfunction and Mitochondrial Oxidative Stress

Cyclooxygenase 2: protein-protein interactions and posttranslational modifications

Pyk2 mediates endothelin‐1 signaling via p130Cas/BCAR3 cascade and regulates human glomerular mesangial cell adhesion and spreading

Targeting 20-HETE producing enzymes in cancer &ndash; rationale, pharmacology, and clinical potential

Post-translational regulation of COX2 activity by FYN in prostate cancer cells

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Targeting 20-HETE producing enzymes in cancer – rationale, pharmacology, and clinical potential