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Full-Text Articles in Medicine and Health Sciences
Age-Related Dgc Structure And Function In The F344/N X Bn Rat Heart, Sunil K. Kakarla
Age-Related Dgc Structure And Function In The F344/N X Bn Rat Heart, Sunil K. Kakarla
Theses, Dissertations and Capstones
Recent data has suggested that disruption of the dystrophin-glycoprotein complex (DGC) may be involved in mediating the progression of cardiac hypertrophy and failure. Here we examined the regulation of DGC proteins in the hearts of adult (6 months), aged (30 months), and very aged (36 months) F344/N X BN rats . Compared to adult animals, the content of α- and β-dystroglycan were 6.93 ± 5.16% and 58.36 ± 3.64% higher, respectively (P < 0.05) in very aged animals. Immunoblotting and immunhistochemical analysis suggested that aging appeared to diminish alpha-sarcoglycan, beta-sarcoglycan and delta-sarcoglycan content by 13.89 ± 3.1%,15.8 ± 2.8% and 18.63 ± 3.04%, respectively (P < 0.05). These alterations in the DGC occurred coincident with age- associated alterations in cytoplasmic anti-rat IgG immunoreactivity, TUNEL positive nuclei, alpha-fodrin cleavage, indices of caspase-3 activation and diminished AKT phosphoryation (Ser 308). Taken together, these data suggest that aging alters cardiac DGC structure and function.
Aging Influences Multiple Indices Of Oxidative Stress In The Heart Of The Fischer 344/Nnia X Brown Norway/Binia Rat, Shinichi Asano
Aging Influences Multiple Indices Of Oxidative Stress In The Heart Of The Fischer 344/Nnia X Brown Norway/Binia Rat, Shinichi Asano
Theses, Dissertations and Capstones
Here we report the influence of aging on multiple markers of oxidativenitrosative stress in the heart of adult (6-month), aged (30-month) and very aged (36- month) Fischer 344/NNiaHSd X Brown Norway/BiNia (F344/NXBN) rats. Compared to 6 month old rat hearts, indices of oxidative (superoxide anion (–O2 ·), 4-hyrdoxy-2- nonenal (4-HNE)) and nitrosative (protein nitrotyrosylation) stress were 34.1 ± 28.1%, 186 ± 28.1% and 94 ± 5.8% higher, respectively, in 36-month hearts and these findings were highly correlated with increases in left ventricular wall thickness (r>0.669; r>0.710 and p<0.01, respectively). Regression analysis showed that increases in cardiac oxidative-nitrosative stress with aging were significantly correlated with changes in the expression and/or regulation of proteins involved in transcriptional (NF-κB) activities, signaling (mitogen activated protein kinases along with Src), apoptotic ( Bcl-2, Traf-2), and cellular stress (HSPs). These results suggest that the aging F344/NXBN heart may be highly suited for unraveling the molecular events that lead to age-associated alterations in cardiac oxidative stress.