The human-specific noncoding RNA functions at the intersection of sexually dimorphic pathways in inflammation, senescence, and metabolism.

Sexual dimorphism is a fundamental characteristic of various physiological and pathological processes in humans, including immune responses, senescence, and metabolism. Most studies on the sex bias have focused on sex hormones or female-biased genes, whereas male-biased genetic factors remain understudied. Here, we show that the Y-linked noncoding RNA, , is expressed in human male keratinocytes.

The immunometabolic function of VGLL3 and female-biased autoimmunity.

Autoimmune diseases exhibit a pronounced yet unexplained prevalence among women. Vestigial-like family member 3 (VGLL3), a female-biased factor that promotes autoimmunity, has recently been discovered to assist cells in sensing and adapting to nutritional stress. This role of VGLL3 may confer a selective advantage during the evolution of placental mammals.

Benzo[a]pyrene Exposure Reduces Cell-Type Diversity and Stimulates Sex-Biased Damage Pathways in End Organs of Lupus-Prone Mice.

Studies indicate that genetic factors only account for approximately thirty percent of all autoimmune diseases, while the rest of autoimmune pathogenesis is attributed to environmental factors including toxic chemicals. To understand if and how environmental pollutants trigger autoimmunity, we investigated the effect of benzo[a]pyrene (BaP) exposure on the development of autoimmune phenotypes in the lupus-prone MRL strain. The exposure of MRL mice to BaP over the course of 8 weeks before lupus onset resulted in total body weight loss in males, while marginal changes in anti-dsDNA levels occurred.

Sex hormone influence on female-biased autoimmune diseases hints at puberty as an important factor in pathogenesis.

The majority of autoimmune diseases affect more women than men, suggesting an important role for sex hormones in regulating immune response. Current research supports this idea, highlighting the importance of sex hormones in both immune and metabolic regulation. Puberty is characterized by drastic changes in sex hormone levels and metabolism.