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author:("Ikeno, fuji")
1.  Do Ames dwarf and calorie-restricted mice share common effects on age-related pathology? 
Pathobiology of Aging & Age Related Diseases  2013;3:10.3402/pba.v3i0.20833.
Since 1996, aging studies using several strains of long-lived mutant mice have been conducted. Among these studies, Ames dwarf mice have been extensively examined to seek clues regarding the role of the growth hormone/insulin-like growth factor-1 axis in the aging process. Interestingly, these projects demonstrate that Ames dwarf mice have physiological characteristics that are similar to those seen with calorie restriction, which has been the most effective experimental manipulation capable of extending lifespan in various species. However, this introduces the question of whether Ames dwarf and calorie-restricted (CR) mice have an extended lifespan through common or independent pathways. To answer this question, we compared the disease profiles of Ames dwarf mice to their normal siblings fed either ad libitum (AL) or a CR diet. Our findings show that the changes in age-related diseases between AL-fed Ames dwarf mice and CR wild-type siblings were similar but not identical. Moreover, the effects of CR on age-related pathology showed similarities and differences between Ames dwarf mice and their normal siblings, indicating that calorie restriction and Ames dwarf mice exhibit their anti-aging effects through both independent and common mechanisms.
doi:10.3402/pba.v3i0.20833
PMCID: PMC3689900  PMID: 23799173
age-related pathology; Ames dwarf mice; calorie restriction; neoplastic disease; aging
2.  Reduction of glucose intolerance with high fat feeding is associated with anti-inflammatory effects of thioredoxin 1 overexpression in mice 
Pathobiology of Aging & Age Related Diseases  2012;2:10.3402/pba.v2i0.17101.
Aging is associated with reduced ability to maintain normal glucose homeostasis. It has been suggested that an age-associated increase in chronic pro-inflammatory state could drive this reduction in glucoregulatory function. Thioredoxins (Trx) are oxido-reductase enzymes that play an important role in the regulation of oxidative stress and inflammation. In this study, we tested whether overexpression of Trx1 in mice [Tg(TRX1)+/0] could protect from glucose metabolism dysfunction caused by high fat diet feeding. Body weight and fat mass gains with high fat feeding were similar in Tg(TRX1)+/0 and wild-type mice; however, high fat diet induced glucose intolerance was reduced in Tg(TRX1)+/0 mice relative to wild-type mice. In addition, expression of the pro-inflammatory cytokine TNF-╬▒ was reduced in adipose tissue of Tg(TRX1)+/0 mice compared to wild-type mice. These findings suggest that activation of thioredoxins may be a potential therapeutic target for maintenance of glucose metabolism with obesity or aging.
doi:10.3402/pba.v2i0.17101
PMCID: PMC3417639  PMID: 22953037
oxidative stress; diabetes; obesity; glucose homeostasis; aging

Results 1-2 (2)