AI Article Synopsis
- The study investigated the mechanisms behind advanced heart failure (AdHF) using two models: TO-2 strain hamsters, which mimic a human genetic condition, and normal rats treated with high doses of isoproterenol.
- Researchers found that a protein called dystrophin (Dys) shifts from the sarcolemma (the cell membrane of heart muscle cells) to the cytoplasm as heart failure progresses, weakening heart cell structure and function, while the delta-sarcoglycan (delta-SG) remains intact.
- By using gene therapy to introduce a normal delta-SG gene, they were able to improve the stability of heart cell membranes and prolong the survival of the treated hamsters, suggesting that loss of Dys,
Article Abstract
To clarify the precise mechanism for the progression of advanced heart failure (AdHF), we assessed the scheme in two HF models, using (I) TO-2 strain hamsters sharing common genetic and clinical features to human families with the delta-sarcoglycan (SG) gene mutation and (II) administration of a high-dose (HD) of isoproterenol (Isp) to normal rats. Delta-SG is a component in dystrophin (Dys)-related proteins that stabilize the sarcolemma (SL) during repeated heart beats. In TO-2, we followed time course of hemodynamics, immunostaining and Western blotting of Dys and in situ SL permeability by Evans blue uptake with or without the gene therapy. Dys was age-dependently translocated from the SL to myoplasm (MP) where the SL instability accompanied the fragmentation of Dys. By gene therapy to supplement the normal delta-SG gene in hearts in vivo, we found that Dys translocation was selectively improved in cardiomyocytes expressing the delta-SG transgene, where the SL fragility was ameliorated. Most importantly, the survival period of the animals was prolonged. Furthermore, Dys but not delta-SG was also time-dependently shifted with a HD of Isp from the SL to MP and fragmented, while delta-SG was preserved intact. We present a novel paradigm that disruption of Dys, but not delta-SG per se, leads to AdHF irrespective of hereditary or acquired origin.
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| http://dx.doi.org/10.1254/fpj.123.55 | DOI Listing |
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