Cali Corbett scite author profile

Cardiovascular disease is the leading cause of morbidity and mortality in the Western and developing world, and the incidence of cardiovascular disease is increasing with the longer lifespan afforded by our modern lifestyle. Vascular diseases including coronary heart disease, high blood pressure, and stroke comprise the majority of cardiovascular diseases, and therefore represent a significant medical and socioeconomic burden on our society. It may not be surprising that these conditions overlap and potentiate each other when we consider the many cellular and molecular similarities between them. These intersecting points are manifested in clinical studies in which lipid lowering therapies reduce blood pressure, and anti-hypertensive medications reduce atherosclerotic plaque. At the molecular level, the vascular smooth muscle cell (VSMC) is the target, integrator, and effector cell of both atherogenic and the major effector protein of the hypertensive signal Angiotensin II (Ang II). Together, these signals can potentiate each other and prime the artery and exacerbate hypertension and atherosclerosis. Therefore, VSMCs are the fulcrum in progression of these diseases and, therefore, understanding the effects of atherogenic stimuli and Ang II on the VSMC is key to understanding and treating atherosclerosis and hypertension. In this review, we will examine studies in which hypertension and atherosclerosis intersect on the VSMC, and illustrate common pathways between these two diseases and vascular aging.

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Glucose consumption of vascular cell types in culture: toward optimization of experimental conditions

Torimoto

Okuno

Kuroda

et al. 2022

American Journal of Physiology-Cell Physiology

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In this study, we have looked for an optimum media glucose concentration and compared glucose consumption in three vascular cell types, endothelial cells (EC), vascular smooth muscle cells (VSMC) and adventitial fibroblasts (AF) with or without angiotensin II (AngII) stimulation. In a sub-confluent 6-well experiment in 1 mL DMEM with a standard low (100 mg/dL), a standard high (450 mg/dL), or a mixed middle (275 mg/dL) glucose concentration, steady and significant glucose consumption was observed in all cell types. After 48-hour incubation, media that contained low glucose was reduced to almost 0 mg/dL, media that contained high glucose remained significantly higher at ~275 mg/dL, and media that contained middle glucose remained closer to physiological range. AngII treatment enhanced glucose consumption in AF and VSMC but not in EC. Enhanced extracellular acidification rate by AngII was also observed in AF. In AF, AngII induction of target proteins at 48 hours varied depending on the glucose concentration used. In low glucose media induction of glucose regulatory protein 78 or hexokinase II was highest, whereas induction of VCAM-1 was lowest. Utilization of specific inhibitors further suggest essential roles of AT1 receptor and glycolysis in AngII-induced fibroblast activation. Overall, the present study demonstrates a high risk of hypo- or hyperglycemic conditions when standard low or high glucose media is used with vascular cells. Moreover, these conditions may significantly alter experimental outcomes. Media glucose concentration should be monitored during any culture experiments and utilization of middle glucose media is recommended for all vascular cell types.

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Deletion of LDLRAP1 Induces Atherosclerotic Plaque Formation, Insulin Resistance, and Dysregulated Insulin Response in Adipose Tissue

Leigh

Kawai

Preston

et al. 2022

The American Journal of Pathology

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Reward and immune responses in adolescent females following experimental traumatic brain injury

Cannella

Andrews

Razmpour

et al. 2020

Behavioural Brain Research

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The pathology of traumatic brain injury (TBI) adversely affects many brain regions, often resulting in the development of comorbid psychiatric disorders including substance use disorders (SUD). Although traditionally thought to be an epidemic that predominantly affects males, recent clinical studies report females have higher rates of concussions and longer recovery times than males. Yet, how neurotrauma, particularly deep within the brain, between the sexes is differentially manifested remains largely unknown. The risk of TBI peaks during adolescence when neuronal networks that regulate reward behaviors are not fully developed. Previously, using the conditioned place preference (CPP) assay, we found that adolescent TBI increased susceptibility to the rewarding effects of cocaine in male mice. Further, we observed augmented inflammatory profiles, increased microglial phagocytosis of neuronal proteins, and decreased neuronal spine density in the NAc. Notably, the extent of sex differences in SUD susceptibility following TBI has not be investigated. Thus, here we ask the central question of whether the adolescent TBI-induced neuroinflammatory profile at reward centers is divergent in a sex-dependent manner. Using the CPP assay, we found that female mice with high levels of female sex hormones at the time of adolescent TBI demonstrated neuroprotection against increased sensitivity to the rewarding effects of cocaine. These studies also provide evidence of significantly reduced microglial activation and phagocytosis of neuronal proteins within the NAc of females. Overall, our results offer crucial insight into how adolescent TBI impacts the reward pathway in a sex depending manner that could explain a vulnerability to addiction-like behavior.

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Abstract P126: FXR1 Regulates Vascular Smooth Muscle Cell Cytoskeletal Dynamics By Multiple Mechanisms

Paul

Preston

Corbett³

et al. 2022

Hypertension

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Introduction: Hypertension is a major risk factor for cardiovascular disease and stroke. Optimally treated hypertensive patients have a 50% greater cardiovascular risk than untreated normotensive subjects, presenting a need for additional targets. Vascular smooth muscle cells (VSMC) play a critical role in vascular contractility and regulation of blood pressure. Fragile X-related protein (FXR1) is a muscle-enhanced RNA binding protein. In addition to containing mRNA binding domains, FXR1 has an agenet-like domain for protein-protein interactions and four WH2 motif domains to mediate actin dynamics. The structure of FXR1 supports its role in post-transcriptional regulation and though largely ignored, cytoskeletal dynamics via potential protein-protein interactions. This study will test the hypothesis that FXR1 regulates vascular contractility by RNA stability and protein interactions. Results: RNA immuno-precipitation sequencing (RIPseq) analysis in human VSMC identified that FXR1 binds to mRNA that participate in VSMC contractility and cytoskeletal reorganization, and FXR1 depletion decreases mRNA abundance and stability of these transcripts. Mass-spectrometry and co-immunoprecipitation identified that FXR1 interacts with members of the WAVE complex, a five-subunit protein complex involved in the formation of the actin cytoskeleton, including CYFIP1 (Cytoplasmic FMR1-interacting protein 1) and Actin Related Protein 2/3 complex (ARP2). The WAVE complex is activated by an ARP2-mediated interaction with Rac1, promoting actin remodeling and cytoskeletal reorganization in a GTP-dependent manner. FXR1 depletion decreases small GTPases RAC1 and CDC42 activation in VSMC. Additionally, FXR1 depletion decreases VSMC lamellipodia formation, adhesion, migration and collagen gel contraction. Novel, VSMC-specific FXR1 conditional knock out mice show decreased diastolic (P < 0.05) blood pressure at baseline compared to controls. Conclusion: These data are the first to suggest that FXR1 regulates mRNA stability of contractile proteins and interacts with members of the WAVE complex. Deletion of FXR1 abrogates VSMC cytoskeletal reorganization, resulting in a hypotensive phenotype in VSMC-specific conditional knockout mice.

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Cali Corbett

Angiotensin II, Hypercholesterolemia, and Vascular Smooth Muscle Cells: A Perfect Trio for Vascular Pathology

Glucose consumption of vascular cell types in culture: toward optimization of experimental conditions

Deletion of LDLRAP1 Induces Atherosclerotic Plaque Formation, Insulin Resistance, and Dysregulated Insulin Response in Adipose Tissue

Reward and immune responses in adolescent females following experimental traumatic brain injury

Abstract P126: FXR1 Regulates Vascular Smooth Muscle Cell Cytoskeletal Dynamics By Multiple Mechanisms

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