1.
Stress-induced disturbances along the gut microbiota-immune-brain axis and implications for mental health: Does sex matter?
Audet, MC
Frontiers in neuroendocrinology. 2019;:100772
Abstract
Women are roughly twice as likely as men to suffer from stress-related disorders, especially major depression and generalized anxiety. Accumulating evidence suggest that microbes inhabiting the gastrointestinal tract (the gut microbiota) interact with the host brain and may play a key role in the pathogenesis of mental illnesses. Here, the possibility that sexually dimorphic alterations along the gut microbiota-immune-brain axis could play a role in promoting this female bias of mood and anxiety disorders will be discussed. This review will also analyze the idea that gut microbes and sex hormones influence each other, and that this reciprocal crosstalk may come to modulate inflammatory players along the gut microbiota-immune-brain axis and influence behavior in a sex-dependent way.
2.
Sex hormones and macronutrient metabolism.
Comitato, R, Saba, A, Turrini, A, Arganini, C, Virgili, F
Critical reviews in food science and nutrition. 2015;(2):227-41
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Abstract
The biological differences between males and females are determined by a different set of genes and by a different reactivity to environmental stimuli, including the diet, in general. These differences are further emphasized and driven by the exposure to a different hormone flux throughout the life. These differences have not been taken into appropriate consideration by the scientific community. Nutritional sciences are not immune from this "bias" and when nutritional needs are concerned, females are considered only when pregnant, lactating or when their hormonal profile is returning back to "normal," i.e., to the male-like profile. The authors highlight some of the most evident differences in aspects of biology that are associated with nutrition. This review presents and describes available data addressing differences and similarities of the "reference man" vs. the "reference woman" in term of metabolic activity and nutritional needs. According to this assumption, available evidences of sex-associated differences of specific biochemical pathways involved in substrate metabolism are reported and discussed. The modulation by sexual hormones affecting glucose, amino acid and protein metabolism and the metabolization of nutritional fats and the distribution of fat depots, is considered targeting a tentative starting up background for a gender concerned nutritional science.
3.
Tuberculosis and sexual inequality: the role of sex hormones in immunity.
Zhao, Y, Ying, H, Demei, J, Xie, J
Critical reviews in eukaryotic gene expression. 2012;(3):233-41
Abstract
The role of sex hormones is profound and diverse. The gender and age differences in TB incidences suggest a role of hormones. These data, together with their relevance to the epidemiology of tuberculosis, are gathered and analyzed in this review. The underlying network of hormones functionalities in TB is also proposed.
4.
Neuroendocrine-immune interactions in synovitis.
Cutolo, M, Straub, RH, Bijlsma, JW
Nature clinical practice. Rheumatology. 2007;(11):627-34
Abstract
Synovial tissue lines the noncartilaginous surfaces of synovial joints and supplies these avascular structures with nutrients. In diseases such as rheumatoid arthritis, inflammation of the synovial tissue--synovitis--induces diffuse damage to the joints. The presence of functional receptors for glucocorticoids, androgens and estrogens in synoviocytes might link inflammation and the endocrine system at the local level. Synovial tissue could be regarded as an intracrine tissue, whereby active steroids influence the cells in which they are synthesized, without their release into the extracellular space. An increase in the peripheral metabolism of sex steroids is characteristic of rheumatoid synovitis, with an augmented ratio of estrogen to androgen occurring in both male and female patients. Changes in the peripheral nervous system at the site of local inflammation are also hallmarks of synovitis in rheumatoid arthritis. In the chronic phase of synovitis, sympathetic nerve fibers are lost; by contrast, sensory nerve fibers sprout into the inflamed tissue. Complex interactions occur between the endocrine, nervous and immune systems during synovitis. In particular, studying neuroendocrine-immune interactions in the inflamed synovium will potentially uncover new mechanisms in the pathophysiology of rheumatoid arthritis and might lead to new methods of therapeutic intervention.