Logan R. J. Bailey scite author profile

Meiosis produces haploid gametes through a succession of chromosomal events, including pairing, synapsis, and recombination. Mechanisms that orchestrate these events remain poorly understood. We found that the SUMO (small ubiquitin-like modifier)–modification and ubiquitin-proteasome systems regulate the major events of meiotic prophase in mouse. Interdependent localization of SUMO, ubiquitin, and proteasomes along chromosome axes was mediated largely by RNF212 and HEI10, two E3 ligases that are also essential for crossover recombination. RNF212-dependent SUMO conjugation effected a checkpointlike process that stalls recombination by rendering the turnover of a subset of recombination factors dependent on HEI10-mediated ubiquitylation. We propose that SUMO conjugation establishes a precondition for designating crossover sites via selective protein stabilization. Thus, meiotic chromosome axes are hubs for regulated proteolysis via SUMO-dependent control of the ubiquitin-proteasome system.

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Hyperglycemia regulates cardiac K+ channels via O-GlcNAc-CaMKII and NOX2-ROS-PKC pathways

Hegyi

Borst

Bailey

et al. 2020

Basic Res Cardiol

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MBNL1 drives dynamic transitions between fibroblasts and myofibroblasts in cardiac wound healing

et al. 2022

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Diabetic Hyperglycemia Regulates Potassium Channels and Arrhythmias in the Heart via Autonomous CaMKII Activation by O-Linked Glycosylation

Hegyi

Borst

Lucena

et al. 2019

Biophysical Journal

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Both forms of preconditioning greatly reduced infaction areas relative to controls. Store depletion generated Ca(2þ) selective currents with strong inward rectification. Preconditioning almost completely suppressed these currents, an effect that was almost blocked by 5HD a selective mitoKATP channel blocker and by intracellular BAPTA. And as assessed by Fura-2 this influx was also blocked by preconditioning. In contrast, the expression at the protein level of both STIM1 and Orai1 was strongly up-regulated by preconditioning and confocal microscopy revealed a higher density of Orai1 channels at the surface membrane.Our results indicate that while the expression of protein components of SOCS in heart cells (STIM1 and Orai1) are up-regulated by preconditioning, influx of Ca(2þ) through SOCS is severely impaired by preconditioning, probably by a slow Ca(2þ)-dependent inactivation process.

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Correcting dilated cardiomyopathy with fibroblast-targeted p38 deficiency

Bretherton

Zabrecky

Goldstein

et al. 2023

Preprint

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Inherited mutations in contractile and structural genes, which decrease cardiomyocyte tension generation, are principal drivers of dilated cardiomyopathy (DCM) - the leading cause of heart failure. Progress towards developing precision therapeutics for and defining the underlying determinants of DCM has been cardiomyocyte centric with negligible attention directed towards fibroblasts despite their role in regulating the best predictor of DCM severity, cardiac fibrosis. Given that failure to reverse fibrosis is a major limitation of both standard of care and first in class precision therapeutics for DCM, this study examined whether cardiac fibroblast-mediated regulation of the heart's material properties is essential for the DCM phenotype. Here we report in a mouse model of inherited DCM that prior to the onset of fibrosis and dilated myocardial remodeling both the myocardium and extracellular matrix (ECM) stiffen from switches in titin isoform expression, enhanced collagen fiber alignment, and expansion of the cardiac fibroblast population, which we blocked by genetically suppressing p38a in cardiac fibroblasts. This fibroblast-targeted intervention unexpectedly improved the primary cardiomyocyte defect in contractile function and reversed ECM and dilated myocardial remodeling. Together these findings challenge the long-standing paradigm that ECM remodeling is a secondary complication to inherited defects in cardiomyocyte contractile function and instead demonstrate cardiac fibroblasts are essential contributors to the DCM phenotype, thus suggesting DCM-specific therapeutics will require fibroblast-specific strategies.

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Logan R. J. Bailey

A SUMO-ubiquitin relay recruits proteasomes to chromosome axes to regulate meiotic recombination

Hyperglycemia regulates cardiac K+ channels via O-GlcNAc-CaMKII and NOX2-ROS-PKC pathways

MBNL1 drives dynamic transitions between fibroblasts and myofibroblasts in cardiac wound healing

Diabetic Hyperglycemia Regulates Potassium Channels and Arrhythmias in the Heart via Autonomous CaMKII Activation by O-Linked Glycosylation

Correcting dilated cardiomyopathy with fibroblast-targeted p38 deficiency

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