Project description:Recent studies strongly support the hypothesis that antioxidant diet inhibits the pathological aging process as shown in senescence-accelerated mouse prone 8 (SAM/P-8). In our previous study, we reported that a diet rich in antioxidants inhibits the pathological aging process, as shown coral calcium hydride (CCH) increased the endogenous antioxidant ability and contributed to prolonging the life-span of SAM/P-8. In order to test the hypothesis that antioxidant CCH supplementation to SAM/P-8 mice would change the gene expression and understand how CCH reverses the acceleration of aging in SAM/P-8 mice, in the current study, we used a DNA array to compare the expression levels in the hippocampus of the brains from 16-week-old SAM/P-8 mice treated or not treated with CCH. The most significant up regulated changes in the gene network of SAM/P-8 mice were free radical scavenging and molecular transport, and genes associated with cell death, cancer, and cell cycle were downregulated. Our findings about changes in these mRNA might be associated with that inhibition of the acceleration of aging is observed in SAM/P-8 mice fed a CCH-diet. Eight-week-old male SAM/P-8 and SAM/R-1 mice were assigned to two groups: the CCH-fed group (fed with CCH for 8 weeks with CE-2 (rodent diet, Clea Japan, Inc., Tokyo, Japan) containing 0.1% CCH) and the control group (fed with CE-2 for 8 weeks).

Project description:In our previous study, we reported that a diet rich in antioxidants such as coral calcium hydride (CCH) increased the endogenous antioxidant ability in the hippocampus of rats. We conducted this study to test the hypothesis that diet supplementation with CCH would change the gene expression in rats and to understand how CCH enhances antioxidant ability. We used a DNA array to compare the expression levels in the hippocampus of rats fed with CCH for 2 weeks with those of rats fed a normal diet. Immune response-related genes were down-regulated, while nuclear respiratory factor 2 and aldehyde dehydrogenase 3A were up-regulated. Our findings about the changes in the mRNA levels of these genes well explain the physiological finding of enhanced antioxidant ability in rat brain. CCH was obtained from ICB, Ltd., Sendai, Japan, and coral calcium (CC) was purchased from Coralbio, Okinawa, Japan. Male Wistar rats were acquired from Kyudo, Co., Ltd. and maintained at the Experimental Animal Center of the University of Miyazaki at a controlled ambient temperature of 23 ± 1 °C and 50 ± 10% relative humidity. The Committee for Ethics on Animal Experiments, Faculty of Medicine, University of Miyazaki, Japan, reviewed and approved the experimental design. Six-week-old male Wistar rats (n = 8) were assigned to 2 groups: standard diet-fed group (CE-2, Clea Japan, Inc., Tokyo, Japan) and CCH-fed group. The CCH diet was standard CE-2 feed supplemented with 0.1% CCH powder. Inhibition of accelerated aging and an increase in the in vivo antioxidant ability was observed in SAM/P-8 mice fed a diet supplemented with 0.1% CCH. In accordance with these reports, the CCH concentration used in our study was set at 0.1%.The animals were killed by cervical dislocation at the age of 8 weeks. They were decapitated and the hippocampi were removed and rapidly frozen in liquid nitrogen. The hippocampi were then homogenized with a conventional rotor-stator homogenizer. Total RNA was then extracted from the tissues by using the RNeasy Lipid Tissue Mini Kit (Qiagen, Valencia, CA).

Project description:In our previous study, we reported that a diet rich in antioxidants such as coral calcium hydride (CCH) increased the endogenous antioxidant ability in the hippocampus of rats. We conducted this study to test the hypothesis that diet supplementation with CCH would change the gene expression in rats and to understand how CCH enhances antioxidant ability. We used a DNA array to compare the expression levels in the hippocampus of rats fed with CCH for 2 weeks with those of rats fed a normal diet. Immune response-related genes were down-regulated, while nuclear respiratory factor 2 and aldehyde dehydrogenase 3A were up-regulated. Our findings about the changes in the mRNA levels of these genes well explain the physiological finding of enhanced antioxidant ability in rat brain.

Project description:Astrocytes are key cells in brain aging, helping neurons to undertake healthy aging or otherwise letting them enter into a spiral of neurodegeneration. We aimed to characterize astrocytes cultured from senescence-accelerated prone 8 (SAMP8) mice, a mouse model of brain pathological aging, along with the effects of caloric restriction, the most effective rejuvenating treatment known so far. Analysis of the transcriptomic profiles of SAMP8 astrocytes cultured in control conditions and treated with caloric restriction serum was performed using mRNA microarrays. A decrease in mitochondrial and ribosome mRNA, which was restored by caloric restriction, confirmed the age-related profile of SAMP8 astrocytes and the benefits of caloric restriction. An amelioration of antioxidant and neurodegeneration-related path- ways confirmed the brain benefits of caloric restriction. Studies of oxidative stress and mitochondrial function demonstrated a reduction of oxidative damage and partial improvement of mito- chondria after caloric restriction. In summary, caloric restriction showed a significant tendency to normalize pathologically aged astrocytes through the activation of pathways that are protective against the age-related deterioration of brain physiology. Key words: astrocytes; caloric restriction; mitochondria; oxidative stress; RNA microarrays; SAMP8. Primary cultures enriched in astrocytes were obtained from cerebral cortical tissue from 2-day-old SAMP8 and SAMR1 mice. Astrocyte cultures were established and experiments were routinely carried out after 21 days in culture. Established astrocyte cultures of both SAMR1 and SAMP8 consisted of 85-90% astrocytes, 10-15% microglia and 0.1-1% oligodendroglia. Sera from rats subjected to ad libitum (AL) diet and to CR were obtained as described for the establishment of the CR in vitro model (de Cabo et al., 2003). Serum was heat inactivated at 56°C prior to use in astrocyte culture experiments. Treatment in vitro was performed by adding 10% volume CR or AL serum onto the astrocyte culture medium for 48 h, the cells were harvested and RNA was extracted for the microarray studies. Three biological replicates for each condition were done and RNA was extracted for the microarray studies. Please note that SAM models were developed from AKR/J by Kyoto University. Five litters with severe senescence were selected to further propagate and examine these characteristics. Litters that showed normal aging were selected as a senescence-resistant series (R-series). The genetic background of the SAM mice became suspect after the pathological findings were different from the AKR/J mouse. Each SAM model is genetically different. Each SAM colony was acquired by Harlan by Takeda Chemical Ltd. in 2002. And here is the link to the company site. http://www.harlan.com/products_and_services/research_models_and_services/research_models/sam_inbred_mice/samp8tahsd.hl

Project description:Although caloric restriction (CR) was first shown to extend the lifespan of rodents over 75 years ago, the underlying mechanisms remain unclear. Additionally, the majority of published studies have focused on the effects of short-term CR. To better understand cell signaling alterations in a tissue known to be highly impacted by CR, we sought to assess the impact of aging and lifelong CR on skeletal muscle protein phosphorylation dynamics. We performed phosphoproteomic analysis on skeletal muscle from young mice, old mice fed on an ad libitum diet, and old mice fed a CR diet. This analysis revealed distinct phosphoproteomic signatures associated with both aging and diet. Importantly, CR appeared to promote a signature that was more similar to young mice than old mice fed on an ad lib diet. From the phosphorylation measurements on its known substrates, we deciphered that aging promotes Protein kinase A (PKA) signaling, and CR inhibits this signaling cascade. Given the demonstrated role of PKA signaling as a “pro-aging” pathway in various model organisms, including yeast and mice, we propose that CR exerts its longevity-enhancing effects partially via the suppression of this pathway.

Project description:Kidney aging is an irreversible physiological process and some suggest that kidney aging is viewed as a pathological condition. To enhance understanding of the molecular nature of renal aging, we performed whole kidney RNA sequencing in young mice (2-month-old) fed with standard diet versus those with adenine-enriched diet, and this bulk transcriptome was then compared with transcriptional changes with aging.

Project description:In this study, we determined the effect of chronic consistent hypoxia (CCH) and chronic intermittent hypoxia (CIH) on global gene expression in cortical and hippocampal region of developing mouse brain using long-oligo beadschip arrays. Keywords: Gene expression profile Control-Cortex: Cortical samples from 16 days old mice were analysed on whole-genome expression chips to reveal expression profile at this developmental stage. Used as control for Chronic Hypoxia Treated cortical samples. CCH-Cortex: Cortical samples from 2-week CCH treated mice were analysed on whole-genome expression chips to reveal the changes in gene expression profile following 2-week CCH treatment. CIH-Cortex: Cortical samples from 2-week CCH treated mice were analysed on whole-genome expression chips to reveal the changes in gene expression profile following 2-week CIH treatment. Control-Hippocampus: Hippocampal samples from 16 days old mice were analysed on whole-genome expression chips to reveal expression profile at this developmental stage. Used as control for Chronic Hypoxia Treated hippocampal samples. CCH-Hippocampus: Hippocampal samples from 2-week CCH treated mice were analysed on whole-genome expression chips to reveal the changes in gene expression following 2-week CCH treatment. CIH-Hippocampus: Hippocampal samples from 2-week CCH treated mice were analysed on whole-genome expression chips to reveal the changes in gene expression following 2-week CIH treatment.

Project description:Increased oxidative stress induces impairment of the antioxidant defense systems and defects in regeneration of injured tissues. We aim to evaluate the effects of antioxidant bioactive ceramic water (JJ101) on tissue repairing and anti-aging. In vitro, myogenic and antioxidant factors were determined in satellite cells cultured in JJ101 media. Satellite cells grown in JJ101 medium displayed increased expression of Notch1, Pax7, AMP-activating protein kinase-alpha (AMPK-alpha) and anti-oxidant enzymes and significant protection against hydrogen peroxide-induced cell death. In vivo, JJ101 enhanced muscle regeneration via increased number of regenerating muscle fibers and reduced muscle fibrosis. The lifespan in SMP30 KO mice fed with a VC-deficient diet was extended by drinking JJ101. Moreover, the hepatic expression of AMPK-α in JJ101-fed SMP30 KO mice was comparable to that of VC-fed SMP30 KO mice, whereas it was suppressed in tap water-fed SMP30 KO mice. These results suggest that bioactive ceramic water improves antioxidant status through up-regulating antioxidant enzymes and AMPK and thereby provides a favorable niche for satellite cells, leading to an increase in muscle regeneration and compensates oxidative stress.

Project description:Chronic constant hypoxia (CCH), such as in pulmonary diseases or high altitude, and chronic intermittent hypoxia (CIH), such as in sleep apnea, can lead to major changes in the heart. The molecular mechanisms underlying these cardiac alterations are not well understood. We hypothesized that analysis on the changes in gene expression could help to delineate such mechanisms. In addition, the differences that can be anticipated between CCH and CIH could be potentially dissected. Current study used CCH and CIH mouse models combined with cDNA microarrays to determine the changes of gene expression in CCH or CIH mice heart. Keywords = heart Keywords = hypoxia Keywords = mouse Keywords = microarray Keywords: time-course

Project description:AnxA1 inhibits pathological bone resorption