Effect of premature aging on murine adipose tissue

To evaluate the effect of aging on adipose tissue development, subcutaneous (SC) and gonadal (CON) white and peri-aortic brown adipose tissues were analyzed of 10 and 30 week old mice deficient in the clock gene Bmal1 (brain and muscle amt like protein 1) (Bmal1(-/-)) and wild-type littermates (Bmal1(+/+)) kept on a standard fat diet. At both ages, daily food intake was significantly decreased for Bmal1(-/-) mice, associated with reduced hypothalamic expression of PPAR alpha. Between 10 and 30 weeks of age, the total body weight of Bmal1(+/+) mice increased significantly, but that of Bmal1(-/-) mice did not change. Whereas for Bmal1(+/+) mice, both SC and CON fat mass increased with age, these decreased for Bmal1(-/-) mice. This was associated with increased adipocyte size with age for Bmal1(+/+) but not for Bmal1(-/-) mice. Adipose tissue related angiogenesis was not affected by genotype or aging. Peri-aortic brown adipose tissue mass in 30 week old Bmal1(-/-) mice was significantly reduced as compared to age-matched Bmal1(+/+) mice. Comparison of gene expression profiles in SC and CON adipose tissues of both genotypes revealed very marked effects of Bmal1 gene deletion in itself on PAI-1 (4- to 13-fold downregulation), whereas the associated effect of premature aging was striking for leptin (90- to 130-fold downregulation). Thus, premature aging in Bmal1(-/-) mice kept on normal chow was associated with reduced adiposity. (C) 2012 Elsevier Inc. All rights reserved.