Metabolic remodelling of mice by hypoxic-hypercapnic environment: imitating the naked mole-rat.

We hypothesised that hypoxic-hypercapnic environment (HHE) could induce metabolic suppression and associated benefits for health and longevity, as observed in the naked-mole rat (NMR). We developed a model of self-produced HHE (similar to a natural habitat of NMRs), which is simple, reliable and natural, and does not require external sources of gases or complex technical equipment. Here, we showed for the first time that a chronic exposure of mice to HHE could be a unique tool for NMR-like metabolic remodeling, resulting in a long-term and substantial decrease in metabolic rate, body temperature, and food consumption, without significant changes in expression of stress-related genes. Unexpectedly, the HHE accelerated skin wound healing, despite the lower energy expenditure. The self-produced HHE could be considered a model of voluntary calorie restriction. All in all, a chronic exposure to HHE offers a potential of being a lifespan-extending intervention as well as an efficient tool for treating the overweight and associated metabolic disorders.

Biogerontology in Ukraine: update.

Recent biogerontological findings in Ukraine are critically reviewed. It is stressed that cooperation of efforts within and between departments, institutions and countries is an efficient mode of coping with the complex problems of aging. A wide spectrum of aging research was traditionally performed in state-funded institutions throughout the country, focusing primarily on the neuro-humoral regulation, immune system, adaptation, oxidative stress, comparative analysis and life span extension. Mitochondria and associated oxidative stress seem to be a crossroad of "wet" and in silico research traffics aimed underpinning mechanisms of aging and life span extension. For instance, the highest coefficients of determination of the mammalian maximum life span were associated with mitochondrial DNA base composition and insertions into the nuclear DNA (NUMTs). The main conclusions of the multidirectional investigative endeavors could concisely be described as: modifications of the mitochondrial membrane resulted in alterations in ROS generation, metabolism, and life span; coordinated action of the key antioxidant genes and enzymes is an important issue in successful aging; lateral hypothalamic area could be a morpho-functional center of anti-aging in CNS; lymphoid tissue microenvironment is crucial in determination of functionality of the transplanted cells; gene and polypeptide therapy proved to be a perspective approach in treatment of accelerated aging; artificial atmosphere with optimal gaseous composition could be an efficient mean for life span extension and viability enhancement.

Pair-wise linear and 3D nonlinear relationships between the liver antioxidant enzyme activities and the rate of body oxygen consumption in mice.

Relationships between the rate of body oxygen consumption (VO2) and the liver key antioxidant enzyme activities were assessed in female CBA mice. The pair-wise linear regression and correlation demonstrated significant correlative links between VO2 and activity of catalase (CAT). Nonlinear 3D plotting revealed a complementary pattern of CAT and glutathione peroxidase (GP) relation. CAT activity was elevated in mice with proportionally high VO2 and superoxide dismutase (SOD), whereas GP activity was high in animals with low or disproportional VO2 and SOD.