Spectrin-based pathways underlying electrical and mechanical dysfunction in cardiac disease

Unudurthi, Sathya D.; Greer-Short, Amara; Patel, Nehal; Nassal, Drew; Hund, Thomas J.

doi:10.1080/14779072.2018.1418664

Cited by 18 publications

(10 citation statements)

References 72 publications

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“…The downregulation of this protein might represent an adaptation mechanism induced by RT to prevent inotropism reduction, likely as a compensatory process. Regarding the spectrin beta chain, it has been reported as a crucial component in maintaining cardiac membrane excitability [34]. Spectrin beta chain downregulation is associated with heart failure and maladaptive cardiac remodeling [35].…”

Section: Discussionmentioning

confidence: 99%

Paternal Resistance Training Induced Modifications in the Left Ventricle Proteome Independent of Offspring Diet

Neto

Tibana

Prestes

et al. 2020

Oxidative Medicine and Cellular Longevity

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Ancestral obesogenic exposure is able to trigger harmful effects in the offspring left ventricle (LV) which could lead to cardiovascular diseases. However, the impact of the father’s lifestyle on the offspring LV is largely unexplored. The aim of this study was to investigate the effects of 8 weeks of paternal resistance training (RT) on the offspring left ventricle (LV) proteome exposed to control or high-fat (HF) diet. Wistar rats were randomly divided into two groups: sedentary fathers and trained fathers (8 weeks, 3 times per week with weights secured to the animals’ tails). The offspring were obtained by mating with sedentary females. Upon weaning, male offspring were divided into 4 groups (5 animals per group): offspring from sedentary fathers, exposed to control diet (SFO-C); offspring from trained fathers, exposed to control diet (TFO-C); offspring from sedentary fathers, exposed to high-fat diet (SFO-HF); and offspring from trained fathers, exposed to high-fat diet (TFO-HF). The LC-MS/MS analysis revealed 537 regulated proteins among groups. Offspring exposure to HF diet caused reduction in the abundance levels of proteins related to cell component organization, metabolic processes, and transport. Proteins related to antioxidant activity, transport, and transcription regulation were increased in TFO-C and TFO-HF as compared with the SFO-C and SFO-HF groups. Paternal RT demonstrated to be an important intervention capable of inducing significant effects on the LV proteome regardless of offspring diet due to the increase of proteins involved into LV homeostasis maintenance. This study contributes to a better understanding of the molecular aspects involved in transgenerational inheritance.

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Section: Discussionmentioning

confidence: 99%

Paternal Resistance Training Induced Modifications in the Left Ventricle Proteome Independent of Offspring Diet

Neto

Tibana

Prestes

et al. 2020

Oxidative Medicine and Cellular Longevity

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“…The spectrin molecule forms as a flexible heterotetramer of α-and β-subunits with broad distribution of spectrin isoforms in mammalian tissues (2 α-and 5 β-spectrin isoforms expressed in humans) (9,10). Mounting data support an expanded role for spectrins in not only providing mechanical support for membranes but also in coordination of critical cell signaling pathways (11). In particular, β IV -spectrin has emerged as a dynamic scaffold that organizes local signaling domains for the regulation of ion channels and membrane excitability in multiple cell types (12)(13)(14)(15).…”

Section: Introductionmentioning

confidence: 99%

βIV-Spectrin/STAT3 complex regulates fibroblast phenotype, fibrosis, and cardiac function

et al. 2019

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“…These result in underdeveloped cardiomyocytes with reduced excitability and contractility (69). The cardiac cell-specific depletion of ␤-fodrin results in pronounced arrhythmia because of an altered association of ankyrin with ␤-fodrin (70). The data collected and analyzed so far delegate a profound role to fodrin in the context of organ development.…”

Section: Functions Exclusive To Fodrinmentioning

confidence: 99%

A Fresh Look at the Structure, Regulation, and Functions of Fodrin

Sreeja

John

Dharmapal

et al. 2020

Molecular and Cellular Biology

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Fodrin and its erythroid-specific isoform spectrin are actin-associated fibrous proteins that play crucial roles in the maintenance of structural integrity in mammalian cells, which is necessary for proper cell function. Normal cell morphology is altered in diseases, like various cancers and certain neuronal disorders. Fodrin and spectrin are two-chain (αβ) molecules that are encoded by paralogous genes and share many common features, but also demonstrate certain differences. Fodrin (in humans, typically, a heterodimer of the products of the SPTAN1 and SPTBN1 genes) is expressed in nearly all cell types, and is especially abundant in neuronal tissues, whereas spectrin (in humans, a heterodimer of the products of the SPTA1 and SPTB1 genes) is expressed almost exclusively in erythrocytes. To fulfill a role in such a variety of different cell types, it was anticipated that fodrin would need to be a more versatile scaffold than spectrin. Indeed, as summarized here, domains unique to fodrin and its regulation by Ca2+, calmoduln, and a variety of post-translational modifications (PTMs) endow fodrin with additional specific functions. However, how fodrin structural variations and misregulated PTMs may contribute to the etiology of various cancers and neurodegenerative diseases needs to be further investigated.

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Spectrin-based pathways underlying electrical and mechanical dysfunction in cardiac disease

Cited by 18 publications

References 72 publications

Paternal Resistance Training Induced Modifications in the Left Ventricle Proteome Independent of Offspring Diet

Paternal Resistance Training Induced Modifications in the Left Ventricle Proteome Independent of Offspring Diet

βIV-Spectrin/STAT3 complex regulates fibroblast phenotype, fibrosis, and cardiac function

A Fresh Look at the Structure, Regulation, and Functions of Fodrin

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