The SAM strain of mice is actually a group of related inbred strains consisting of a series of SAMP (accelerated senescence-prone) and SAMR (accelerated senescence-resistant) strains. Compared with the SAMR strains, the SAMP strains show a more accelerated senescence process, a shorter lifespan, and an earlier onset and more rapid progress of age-associated pathological phenotypes similar to human geriatric disorders. The higher oxidative stress status observed in SAMP mice is partly caused by mitochondrial dysfunction, and may be a cause of this senescence acceleration and age-dependent alterations in cell structure and function. Based on our recent observations, we discuss a possible mechanism for mitochondrial dysfunction resulting in the excessive production of reactive oxygen species, and a role for the hyperoxidative stress status in neurodegeneration in SAMP mice. These SAM strains can serve as a useful tool to understand the cellular mechanisms of age-dependent degeneration, and to develop clinical interventions.
Our results indicate that GCIs, and probably NCIs, share at least some characteristics with aggresomes in terms of their protein components. Therefore, GCIs and NCIs may be another manifestation of aggresome-related inclusion bodies observed in neurodegenerative diseases.
TEN is a severe inflammatory disease which is characterized by generalized epithelial destruction. The epidermis is the most common target of TEN, however, any epithelium can be involved. We report a toxic epidermal necrolysis (TEN) patient who excreted long tubes of dead intestinal epithelium. Epidermal keratinocytes and intestinal epithelium were found to undergo extensive apoptosis by TUNEL method. Drugs were speculated as the causative agents for this case, the causative drug has not been identified. In contrast to marked improvement of cutaneous manifestation and hepatic function by methyl prednisolone pulse therapy, the gastrointestinal symptoms did not respond to therapies, and the patient died by heart failure. Present case suggested a pathogenetic mechanism targeting antigens commonly expressed on the gastrointestinal epithelium and epidermis.
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