Distinguishing Between Biological and Technical Replicates in Hypertension Research on Isolated Arteries

Tsvetkov, D; Колпаков, Е. В.; Kaßmann, Mario; Schubert, Rudolf; Gollasch, Maik

doi:10.3389/fmed.2019.00126

Cited by 13 publications

(10 citation statements)

References 32 publications

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“…The increase of ROS inactivates endothelial nitric oxide (NO), thus decreasing vasodilation in obese animals [ 51 , 52 ]. The potassium channel activity [ 53 , 54 ], NO release [ 54 ], or the regulation of endothelial function induced by the adipose tissue [ 55 , 56 ] may also lead to the impairment of endothelium-dependent vasodilation in obesity.…”

Section: Relationship Between Diabetes and Endothelial Dysfunctionmentioning

confidence: 99%

The Mechanisms of the Development of Atherosclerosis in Prediabetes

Liang

Wang

et al. 2021

IJMS

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Lifestyle changes, such as overeating and underexercising, can increase the risk of prediabetes. Diabetes is one of the leading causes of atherosclerosis, and recently it became clear that the pathophysiology of atherosclerosis progresses even before the onset of diabetic symptoms. In addition to changes in platelets and leukocytes in the hyperglycemic state and damage to vascular endothelial cells, extracellular vesicles and microRNAs were found to be involved in the progression of prediabetes atherosclerosis. This review discusses the cellular and molecular mechanisms of these processes, with an intention to enable a comprehensive understanding of the pathophysiology of prediabetes and atherosclerosis.

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Section: Relationship Between Diabetes and Endothelial Dysfunctionmentioning

confidence: 99%

The Mechanisms of the Development of Atherosclerosis in Prediabetes

Liang

Wang

et al. 2021

IJMS

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“…Group C and D will be a WT without a mutation, with the same efflux pump conditions as Group A and B. Prior to creating an efflux pump deficient environment, efflux ability will be measured in all the groups by recruiting fluorescence dye and recording the change in fluorescence over time as the dye is pumped out of the cells [22]. Once proficiency is confirmed, to create the MtrCDE deficiency in Groups B and D, we will be utilizing CRISPR-Cas9 genome editing to knockout the mtrE gene (Figure 3) encoding for the outer membrane of the MtrCDE pump in N. gonorrhoeae (Figure 4), causing an efflux pump deficient environment [10,11].…”

Section: Jacksonmentioning

confidence: 99%

Combating Antimicrobial Resistance: Assessing Efflux Pump Deficient Environments in Neisseria gonorrhoeae and the Masking Effect on Antimicrobial-Resistant Mutations

et al. 2021

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Introduction: Antimicrobial resistance (AMR) is a global emergency that involves the process of microbes gaining resistance to antimicrobials. A specific example of this is Neisseria (N.) gonorrhoeae gaining resistance to azithromycin, which can be caused by mutations at ribosomal sites. New research suggests that manipulating the bacteria to create a drug efflux pump deficiency will "mask" the effects of AMR mutations when introduced to antibiotic drugs, compared to that of a drug efflux pump proficient environment. This proposal aims to investigate the effects of a drug efflux pump deficient environment compared to a proficient environment on azithromycin drug efficacy in N. gonorrhoeae with an AMR ribosomal mutation. It is hypothesized that AMR mutations can be masked through gene knockout causing MtrCDE efflux pump deficient environments of N. gonorrhoeae. Methods: Aim 1 consists of inducing a ribosomal mutation that incurs resistance to azithromycin in N. gonorrhoeae strains using CRISPR genome editing in groups A and B. Aim 2 will utilize CRISPR-Cas9 to delete the mtrE gene in N. gonorrhoeae, rendering the MtrCDE efflux pump deficient, creating an efflux pump deficient environment in the bacteria of groups B and D. Aim 3 will determine the difference in susceptibility of N. gonorrhoeae towards azithromycin between efflux pump deficient and proficient environments, using disk diffusion and zone of inhibition. Results: We expect Group A will have a smaller diameter zone of inhibition exhibiting azithromycin resistance, while Groups B, C and D will result in a larger diameter exhibiting azithromycin susceptibility. Discussion: We anticipate that Group A will have the smallest diameter zone of inhibition due to the azithromycin resistant mutation and proficient efflux pump environment. We expect Group B will have the largest diameter, demonstrating that N. gonorrhoeae became susceptible to azithromycin with the deficient efflux pump environment masking the azithromycin resistant mutation. Group C (proficient pump) and D (deficient pump) are both wild-type strains therefore we predict they will have larger diameters due to their natural susceptibility to azithromycin. Conclusion:The proposed experiment could help uncover the molecular mechanisms behind masking, which could consequently provide a gateway towards effective strategies to combat AMR.

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“…Further work is also required to ascertain the precise relationship between Ca v 3.2 mediated Ca 2+ influx and Ca 2+ sparks, and the contribution of Ca v 3.2 channels on luminal calcium content. We proposed experimental study designs for distinguishing between biological and technical replicates in such studies using isolated arteries [132]. Future work is also required to study the role of these pathways in aging and cardiovascular disease states.…”

Section: Perspectivesmentioning

confidence: 99%

Elementary calcium signaling in arterial smooth muscle

et al. 2019

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Vascular smooth muscle cells (VSMCs) of small peripheral arteries contribute to blood pressure control by adapting their contractile state. These adaptations depend on the VSMC cytosolic Ca 2+ concentration, regulated by complex local elementary Ca 2+ signaling pathways. Ca 2+ sparks represent local, transient, rapid calcium release events from a cluster of ryanodine receptors (RyRs) in the sarcoplasmic reticulum. In arterial SMCs, Ca 2+ sparks activate nearby calciumdependent potassium channels, cause membrane hyperpolarization and thus decrease the global intracellular [Ca 2+ ] to oppose vasoconstriction. Arterial SMC Ca v 1.2 L-type channels regulate intracellular calcium stores content, which in turn modulates calcium efflux through RyRs. Ca v 3.2 T-type channels contribute to a minor extend to Ca 2+ spark generation in certain types of arteries. Their localization within cell membrane caveolae is essential. We summarize present data on local elementary calcium signaling (Ca 2+ sparks) in arterial SMCs with focus on RyR isoforms, large-conductance calcium-dependent potassium (BK Ca) channels, and cell membrane-bound calcium channels (Ca v 1.2 and Ca v 3.2), particularly in caveolar microdomains.

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Distinguishing Between Biological and Technical Replicates in Hypertension Research on Isolated Arteries

Cited by 13 publications

References 32 publications

The Mechanisms of the Development of Atherosclerosis in Prediabetes

The Mechanisms of the Development of Atherosclerosis in Prediabetes

Combating Antimicrobial Resistance: Assessing Efflux Pump Deficient Environments in Neisseria gonorrhoeae and the Masking Effect on Antimicrobial-Resistant Mutations

Elementary calcium signaling in arterial smooth muscle

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