Sex differences in cognition and aging and the influence of sex hormones

Background:Males and females have altered immune responses resulting in variation in autoimmune and cardiovascular disease risk (CVR). Recently, these differences have played a role in the inflammatory response to COVID-19. Sex differences exist in the frequency and activity of immune-cell subsets but mechanisms underlying sexual dimorphism remain unknown. Juvenile-onset systemic lupus erythematosus (JSLE) is an autoimmune disorder that commonly emerges during puberty, has a strong female prevalence (female:male ratio, 4.5:1) and results in an increased CVR. JSLE is characterised by chronic inflammation and dyslipidaemia, where cardiovascular disease is a leading cause of mortality for patients. Our previous work identified a link between immune cell function and lipid metabolism in adult-onset SLE. We hypothesised that sex hormones could influence both lipid metabolism and immune cell function and this could determine sex-specific susceptibility to JSLE and associated CVR.Objectives:We investigated the role of sex hormones in modifying systemic lipid metabolism and inflammation.Methods:Nuclear magnetic resonance spectroscopy based serum metabolomics measuring over 130 lipoproteins (14-subsets with lipid compositions), flow cytometry measuring immune-cells, and RNA-sequencing were used to assess the metabolic and immune profile in young, pre/post-pubertal males (n=10/17) and females (n=10/23) and in individuals with gender-dysphoria (GD) under cross-hormone treatment (trans-male/female, n=26/25). This analysis was also performed on a cohort of post-pubertal male (n=12) and female (n=23) JSLE patients. Data was analysed by logistic regression, balanced random forest machine learning (BRF-ML), differential gene expression (DEG) and pathway analysis.Results:Post-pubertal males had significantly reduced cardio-protective high-density lipoprotein (HDL) subsets (p<0.0001) and increased cardio-pathogenic very-low-density lipoprotein subsets (p<0.0001) compared to females. These differences were not observed pre-puberty and were reversed significantly by cross-hormone treatment in GD individuals, suggesting that sex hormones regulate lipid metabolism in-vivo.BRF-ML (28 immune-cell subsets) identified an increased frequency of anti-inflammatory regulatory T-cells (Tregs) in post-pubertal males compared to females (p=0.0097). These Tregs were also more suppressive in males compared to females. Differences in Treg frequency were seen pre-puberty and were not altered by sex hormone treatment in GD individuals. However, Treg DEGs and functional transcriptomic pathways altered between post-pubertal males and females, including those involved in inflammatory signalling, overlapped with those altered by hormones in GD, suggesting hormones may also drive Treg functional changes. In addition, HDL metabolites modified by hormones showed differential associations with Treg phenotypes between post-pubertal males and females.Strikingly, sex differences in lipoproteins and Tregs were lost in JSLE, suggesting hormone signalling could be dysregulated in the pathogenesis of autoimmunity and could increase CVR for patients.Conclusion:Sex hormones drive altered lipoprotein metabolism and functional transcriptomic pathways in Tregs. Males have a lipoprotein profile associated with increased CVR, but a more anti-inflammatory immune profile compared to females. Together, this could explain sex differences in inflammatory disease susceptibilities and inform future sex-specific therapeutic strategies for the management of both JSLE and CVR.Acknowledgements:Lupus UKRosetrees TrustVersus ArthritisNIHR UCLH Biomedical Research CentreDisclosure of Interests:None declared

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Regulatory Role of Sex Hormones in Cardiovascular Calcification

International Journal of Molecular Sciences ◽

10.3390/ijms22094620 ◽

2021 ◽

Vol 22 (9) ◽

pp. 4620

Author(s):

Holly J. Woodward ◽

Dongxing Zhu ◽

Patrick W. F. Hadoke ◽

Victoria E. MacRae

Keyword(s):

Cardiovascular Disease ◽

Sex Differences ◽

Sexual Dimorphism ◽

Aortic Stenosis ◽

Sex Hormones ◽

Sex Hormone ◽

Increased Risk ◽

Male Sex ◽

Primary Male

Sex differences in cardiovascular disease (CVD), including aortic stenosis, atherosclerosis and cardiovascular calcification, are well documented. High levels of testosterone, the primary male sex hormone, are associated with increased risk of cardiovascular calcification, whilst estrogen, the primary female sex hormone, is considered cardioprotective. Current understanding of sexual dimorphism in cardiovascular calcification is still very limited. This review assesses the evidence that the actions of sex hormones influence the development of cardiovascular calcification. We address the current question of whether sex hormones could play a role in the sexual dimorphism seen in cardiovascular calcification, by discussing potential mechanisms of actions of sex hormones and evidence in pre-clinical research. More advanced investigations and understanding of sex hormones in calcification could provide a better translational outcome for those suffering with cardiovascular calcification.

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Role of sex hormones in lung cancer

Experimental Biology and Medicine ◽

10.1177/15353702211019697 ◽

2021 ◽

pp. 153537022110196

Author(s):

Nathalie Fuentes ◽

Miguel Silva Rodriguez ◽

Patricia Silveyra

Keyword(s):

Lung Cancer ◽

Sex Differences ◽

Sex Hormones ◽

Hormone Receptors ◽

Occupational Exposures ◽

Lung Carcinogenesis ◽

Male And Female ◽

Female Sex ◽

Incidence And Mortality ◽

Cancer Rates

Lung cancer represents the world’s leading cause of cancer deaths. Sex differences in the incidence and mortality rates for various types of lung cancers have been identified, but the biological and endocrine mechanisms implicated in these disparities have not yet been determined. While some cancers such as lung adenocarcinoma are more commonly found among women than men, others like squamous cell carcinoma display the opposite pattern or show no sex differences. Associations of tobacco product use rates, susceptibility to carcinogens, occupational exposures, and indoor and outdoor air pollution have also been linked to differential rates of lung cancer occurrence and mortality between sexes. While roles for sex hormones in other types of cancers affecting women or men have been identified and described, little is known about the influence of sex hormones in lung cancer. One potential mechanism identified to date is the synergism between estrogen and some tobacco compounds, and oncogene mutations, in inducing the expression of metabolic enzymes, leading to enhanced formation of reactive oxygen species and DNA adducts, and subsequent lung carcinogenesis. In this review, we present the literature available regarding sex differences in cancer rates, associations of male and female sex hormones with lung cancer, the influence of exogenous hormone therapy in women, and potential mechanisms mediated by male and female sex hormone receptors in lung carcinogenesis. The influence of biological sex on lung disease has recently been established, thus new research incorporating this variable will shed light on the mechanisms behind the observed disparities in lung cancer rates, and potentially lead to the development of new therapeutics to treat this devastating disease.

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Sex differences in circadian food anticipatory activity are not altered by individual manipulations of sex hormones or sex chromosome copy number in mice

PLoS ONE ◽

10.1371/journal.pone.0191373 ◽

2018 ◽

Vol 13 (1) ◽

pp. e0191373 ◽

Cited By ~ 3

Author(s):

Antonio Aguayo ◽

Camille S. Martin ◽

Timothy F. Huddy ◽

Maya Ogawa-Okada ◽

Jamie L. Adkins ◽

...

Keyword(s):

Sex Differences ◽

Sex Hormones ◽

Copy Number ◽

Sex Chromosome ◽

Chromosome Copy Number ◽

Food Anticipatory Activity ◽

Anticipatory Activity

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Unexplored functions of sex hormones in glioblastoma cancer stem cells

Endocrinology ◽

10.1210/endocr/bqac002 ◽

2022 ◽

Author(s):

Juyeun Lee ◽

Katie Troike ◽

R’ay Fodor ◽

Justin D Lathia

Keyword(s):

Stem Cells ◽

Immune Response ◽

Sex Differences ◽

Cancer Stem Cells ◽

Tumor Growth ◽

Sex Hormones ◽

Cellular Heterogeneity ◽

Cellular Functions ◽

Biological Sex ◽

Organismal Development

Abstract Biological sex impacts a wide array of molecular and cellular functions that impact organismal development and can influence disease trajectory in a variety of pathophysiological states. In non-reproductive cancers, epidemiological sex differences have been observed in a series of tumors, and recent work has identified previously unappreciated sex differences in molecular genetics and immune response. However, the extent of these sex differences in terms of drivers of tumor growth and therapeutic response is less clear. In glioblastoma, the most common primary malignant brain tumor, there is a male bias in incidence and outcome, and key genetic and epigenetic differences, as well as differences in immune response driven by immune-suppressive myeloid populations, have recently been revealed. Glioblastoma is a prototypic tumor in which cellular heterogeneity is driven by populations of therapeutically resistant cancer stem cells (CSCs) that underlie tumor growth and recurrence. There is emerging evidence that GBM CSCs may show a sex difference, with male tumor cells showing enhanced self-renewal, but how sex differences impact CSC function is not clear. In this mini-review, we focus on how sex hormones may impact CSCs in GBM and implications for other cancers with a pronounced CSC population. We also explore opportunities to leverage new models to better understand the contribution of sex hormones versus sex chromosomes to CSC function. With the rising interest in sex differences in cancer, there is an immediate need to understand the extent to which sex differences impact tumor growth, including effects on CSC function.

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Sex Hormones Regulate Rat Hepatic Monocarboxylate Transporter Expression and Membrane Trafficking

Journal of Pharmacy & Pharmaceutical Sciences ◽

10.18433/j3ch29 ◽

2017 ◽

Vol 20 (1) ◽

pp. 435 ◽

Cited By ~ 2

Author(s):

Jieyun Cao ◽

Michael Ng ◽

Melanie A Felmlee

Keyword(s):

Sex Differences ◽

Membrane Protein ◽

Protein Expression ◽

Estrous Cycle ◽

Sex Hormones ◽

Membrane Trafficking ◽

Drug Disposition ◽

Membrane Expression ◽

Membrane Protein Expression ◽

Estrous Cycle Stage

Purpose: Monocarboxylate transporters (MCTs) are involved in the transport of monocarboxylates such as ketone bodies, lactate, and pharmaceutical agents. CD147 functions as an ancillary protein for MCT1 and MCT4 for plasma membrane trafficking. Sex differences in MCT1 and MCT4 have been observed in muscle and reproductive tissues; however, there is a paucity of information on MCT sex differences in tissues involved in drug disposition. The objective of the present study was to quantify hepatic MCT1, MCT4 and CD147 mRNA, total cellular and membrane protein expression in males, over the estrous cycle in females and in ovariectomized (OVX) females. Method: Liver samples were collected from females at the four estrous cycle stages (proestrus, estrus, metestrus, diestrus), OVX females and male Sprague-Dawley rats (N = 3 – 5). Estrus cycle stage of females was determined by vaginal lavage. mRNA and protein (total and membrane) expression of MCT1, MCT4 and CD147 was evaluated by qPCR and western blot analysis. Results: MCT1 mRNA and membrane protein expression varied with estrous cycle stage, with OVX females having higher expression than males, indicating that female sex hormones may play a role in MCT1 regulation. MCT4 membrane expression varied with estrous cycle stage with expression significantly lower than males. MCT4 membrane expression in OVX females was also lower than males, suggesting that androgens play a role in membrane expression of MCT4. Males had higher membrane CD147 expression, whereas there was no difference in whole cell protein and mRNA levels suggesting that androgens are involved in regulating CD147 membrane localization. Conclusions: This study demonstrates hepatic expression and membrane localization of MCT1, MCT4 and CD147 are regulated by sex hormones. Sex differences in hepatic MCT expression may lead to altered drug disposition, so it is critical to elucidate the underlying mechanisms in the sex hormone-dependent regulation of MCT expression. This article is open to POST-PUBLICATION REVIEW. Registered readers (see “For Readers”) may comment by clicking on ABSTRACT on the issue’s contents page.

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Toll-Like Receptors Represent an Important Link for Sex Differences in Cardiovascular Aging and Diseases

Frontiers in Aging ◽

10.3389/fragi.2021.709914 ◽

2021 ◽

Vol 2 ◽

Author(s):

Cinthya Echem ◽

Eliana H. Akamine

Keyword(s):

Sex Differences ◽

Immune System ◽

Cardiovascular Diseases ◽

Cardiovascular System ◽

Sex Hormones ◽

Human Life ◽

Hormonal Changes ◽

Toll Like Receptors ◽

Increased Risk ◽

Cardiovascular Aging

Human life span expectancy has increased, and aging affects the organism in several ways, leading, for example, to an increased risk of cardiovascular diseases. Age-adjusted prevalence of the cardiovascular diseases is higher in males than females. Aging also affects the gonadal sex hormones and the sex differences observed in cardiovascular diseases may be therefore impacted. Hormonal changes associated with aging may also affect the immune system and the immune response is sexually different. The immune system plays a role in the pathogenesis of cardiovascular diseases. In this context, toll-like receptors (TLRs) are a family of pattern recognition receptors of the immune system whose activation induces the synthesis of pro-inflammatory molecules. They are expressed throughout the cardiovascular system and their activation has been widely described in cardiovascular diseases. Some recent evidence demonstrates that there are sex differences associated with TLR responses and that these receptors may be affected by sex hormones and their receptors, suggesting that TLRs may contribute to the sex differences observed in cardiovascular diseases. Recent evidence also shows that sex differences of TLRs in cardiovascular system persists with aging, which may represent a new paradigm about the mechanisms that contribute to the sex differences in cardiovascular aging. Therefore, in this mini review we describe the latest findings regarding the sex differences of TLRs and associated signaling in cardiovascular diseases during aging.

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Sex in the brain: hormones and sex differences

Dialogues in Clinical Neuroscience ◽

10.31887/dcns.2016.18.4/jmarrocco ◽

2016 ◽

Vol 18 (4) ◽

pp. 373-383 ◽

Cited By ~ 45

Keyword(s):

Sex Differences ◽

Sex Hormones ◽

Genetic Factors ◽

Motor Coordination ◽

Brain Regions ◽

New Era ◽

Brain Functions ◽

Opioid Sensitivity ◽

Males And Females ◽

The Brain

Contrary to popular belief, sex hormones act throughout the entire brain of both males and females via both genomic and nongenomic receptors. Many neural and behavioral functions are affected by estrogens, including mood, cognitive function, blood pressure regulation, motor coordination, pain, and opioid sensitivity. Subtle sex differences exist for many of these functions that are developmentally programmed by hormones and by not yet precisely defined genetic factors, including the mitochondrial genome. These sex differences, and responses to sex hormones in brain regions and upon functions not previously regarded as subject to such differences, indicate that we are entering a new era in our ability to understand and appreciate the diversity of gender-related behaviors and brain functions.

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Sex Differences and the Influence of Sex Hormones on Cognition through Adulthood and the Aging Process

Brain Sciences ◽

10.3390/brainsci8090163 ◽

2018 ◽

Vol 8 (9) ◽

pp. 163 ◽

Cited By ~ 17

Author(s):

Caroline Gurvich ◽

Kate Hoy ◽

Natalie Thomas ◽

Jayashri Kulkarni

Keyword(s):

Alzheimer’S Disease ◽

Alzheimer's Disease ◽

Sex Differences ◽

Cognitive Functioning ◽

Sex Hormones ◽

Reproductive Function ◽

Health And Disease ◽

And Function ◽

The Brain

Hormones of the hypothalamic-pituitary-gonadal (HPG) axis that regulate reproductive function have multiple effects on the development, maintenance and function of the brain. Sex differences in cognitive functioning have been reported in both health and disease, which may be partly attributed to sex hormones. The aim of the current paper was to provide a theoretical review of how sex hormones influence cognitive functioning across the lifespan as well as provide an overview of the literature on sex differences and the role of sex hormones in cognitive decline, specifically in relation to Alzheimer’s disease (AD). A summary of current hormone and sex-based interventions for enhancing cognitive functioning and/or reducing the risk of Alzheimer’s disease is also provided.

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