BackgroundTestosterone signals through the androgen receptor (AR) and AR knockout mice develop obesity, suggesting a functional association between AR and leptin signaling. Furthermore, physiological blood concentrations of testosterone have been found to inhibit the development of arteriosclerosis, obesity and diabetes. However, these findings have not been verified by testosterone replacement in animal models and whether or not testosterone acts directly by activating AR to enhance leptin signaling, or indirectly by its conversion into estrogen remains unclear. Therefore, we investigated the effect of exogenously supplemented testosterone on glucose and lipid metabolism.MethodsFour-week-old male leptin receptor-knockout db/db mice were used as controls for a model of obesity retaining low testosterone. Mice were divided into sham-operated, castrated, or castrated and testosterone-supplemented groups and fed a high-fat diet (HFD) for 2 weeks from 5 weeks of age. Testosterone concentrations, blood glucose, plasma insulin levels, and intraperitoneal glucose tolerance and insulin tolerance were measured. At 7 weeks, triglyceride and glycogen content were measured in the liver and muscle. Lipid accumulation in the liver and soleus muscle was determined by immunohistochemistry with Oil Red O. Statistical analyses were performed using the Student’s t-test or ANOVA where applicable.ResultsLower testosterone levels in db/db mice compared with wild type (WT) db/+ mice were associated with glucose intolerance and fatty liver. Furthermore, castrated male db/db mice at 4 weeks of age progressively developed glucose intolerance accompanying a 15% increase in liver fat. Male mice fed a HFD had lower levels of testosterone compared with those fed a normal diet. We found that exogenous testosterone replacement injected subcutaneously into castrated male db/db mice alleviated the exacerbation of fatty liver and glucose intolerance, suggesting a leptin-independent mechanism. This mechanism is most likely mediated through gonadal axis suppression in this mouse model.ConclusionsIn summary, testosterone may use a novel pathway to complement leptin signaling to regulate glucose and lipid metabolism, and thus offers a new therapeutic target to treat metabolic disorders.Electronic supplementary materialThe online version of this article (10.1186/s12902-018-0266-y) contains supplementary material, which is available to authorized users.
Mechanical stresses including high hydrostatic pressure elicit diverse physiological effects on organisms. Gtr1/Gtr2 and Ego1/Ego3, central regulators of the TOR complex 1 (TORC1) nutrient signaling pathway, are required for the growth of Saccharomyces cerevisiae cells under high pressure. Here, we showed that a pressure of 25 MPa stimulates TORC1 to promote phosphorylation of Sch9, which depends on the EGO complex (EGOC) and Pib2. Incubation of cells at this pressure aberrantly increased the glutamine and alanine levels in the ego1Δ, gtr1Δ, tor1Δ, and pib2Δ mutants, whereas the polysome profiles were unaffected. Moreover, we found that glutamine levels were reduced by combined deletions of EGO1, GTR1, TOR1, and PIB2 with GLN3. These results suggested that high pressure leads to the intracellular accumulation of amino acids. Subsequently, Pib2 loaded with glutamine stimulates the EGOC–TORC1 complex to inactivate Gln3, downregulating glutamine synthesis. Our findings illustrated the regulatory circuit that maintained the intracellular amino acid homeostasis and suggested the critical roles the EGOC–TORC1 and Pib2–TORC1 complexes played in the growth of yeast under high hydrostatic pressure.
Vegetarianism continues to gain popularity in Japan and the Westernized world, in part from decades of science supporting the health advantages of properly planned vegetarian-based diets. Although there are Asian nutritional tools, one specific to a Japanese vegetarian diet is lacking. Thus, the Japanese vegetarian food guide (JVFG) was developed and based in part on the American Dietetic Association position paper for vegetarian diets and the Japanese Food Guide Spinning Top. The JVFG was developed by collecting dietary information from 3 different institutes in Japan that specialize in regularly offering vegetarian meals. The JVFG was divided into 6 groups with respective recommended servings: vegetables (7.5), grains (4.5), protein foods (4), milk (3), fruits (2), and fats, sugar, and seasonings (<3). The JVFG was developed so that it would adequately provide for all nutrients and be structured for practical use by the general public as well as health professionals.
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