LE CONTROLE HORMONAL DE LA DIFFÉRENCIATION DU SEXE

Sex specific gene expression is present prior to metamorphosis in the sea urchin

A profound collaboration between the germline and somatic cells of an organism is the creation of a functional gonad. Here we establish a foundation for studying molecular gonadogenesis in the sea urchin by use of RNA-seq, quantitative mRNA measurements, and in-situ hybridizations throughout the life cycle of the variegated sea urchin, Lytechinus variegatus (Lv). We found through three distinct analyses that the ovary and testis of this echinoderm expresses unique transcripts involved in gametogenesis, and also discovered uncharacterized gene products unique to each gonad. We further developed a pipeline integrating timepoint RNA-seq data throughout development to identify hallmark gene expression in gonads. We found that meiotic and candidate genes involved in sex determination are first expressed surprisingly early during larval growth, and well before metamorphosis. We further discovered that individual larvae express varying amounts of male- or female-hallmarks before metamorphosis, including germline, oocyte, sperm, and meiotic related genes. These distinct male- or female-gonad gene profiles may indicate the onset of, and commitment to, development of a bipotential gonad primordium, and may include metabolic differences, supported by the observation that transcripts involved in glycolysis are highly enriched in the ovary compared to the testis. Together these data support a hypothesis that sex determination is initiated prior to metamorphosis in the sea urchin and that the many uncharacterized genes unique to each gonad type characterized herein may reveal unique pathways and mechanisms in echinoderm reproduction.

Words Matter: Reflective Science Communication and Tradeoffs in Environmental Health Research

BACKGROUND

Scientists who communicate societally relevant information face challenging contexts in which misinformation, disinformation, hype, and spin are prevalent. As a result, they often face difficult decisions about how to frame their work in a socially responsible manner.

OBJECTIVES

Drawing from the literature on science communication and framing, we identify tradeoffs that environmental health scientists face when deciding how to communicate their work, and we propose strategies for handling these tradeoffs. We use research on the human health effects of environmental endocrine disruptors as a case study to illustrate these challenges and strategies.

DISCUSSION

We examine four major frames (i.e., ways of packaging information that draw attention to facets of an issue or topic) in discussions of the effects of endocrine-disrupting chemicals on sexual and neural development and obesity. We show how these frames can be beneficial (e.g., focusing public attention on environmental health threats and promoting actions to address environmental pollution) while simultaneously having harmful effects (e.g., contributing to stigmatization of particular groups or the promotion of harmful political ideologies).

CONCLUSIONS

Researchers who seek to responsibly communicate societally relevant work can employ several strategies to mitigate difficult tradeoffs, including a) striving for sensitivity to the social context and its relationship to their framing choices, b) choosing to avoid some frames, c) employing frames that alleviate ethical tensions, d) fostering education to alleviate harms, e) developing interdisciplinary and community collaborations, and f) working with institutions like scientific societies and journals to develop guidance on responsible communication practices. https://doi.org/10.1289/EHP14527.

The Biology and Evolution of Fierce Females (Moles and Hyenas)

Talpid moles and spotted hyenas have become the paradigms of anatomical and behavioral female masculinization. Females of many mole species develop ovotestes that produce testosterone, show external genitalia that resemble that of males, and close their vaginal orifice after every estrus, and female spotted hyenas lack an external vaginal orifice and develop a pseudoscrotum and a large pseudopenis through which they urinate, mate, and give birth. We review current knowledge about several significant aspects of the biology and evolution of these females, including (a) their specific study methods; (b) their unique anatomical features, and how these peculiarities influence certain physiological functions; and (c) the role that steroid hormones as well as genetic and environmental factors may have in urogenital system development, aggressive behavior, and social dominance. Nevertheless, both mole and hyena females are exceptionally efficient mothers, so their peculiar genitalia should not call into question their femininity.

One Tool for Many Jobs: Divergent and Conserved Actions of Androgen Signaling in Male Internal Reproductive Tract and External Genitalia

In the 1940s, Alfred Jost demonstrated the necessity of testicular secretions, particularly androgens, for male internal and external genitalia differentiation. Since then, our knowledge of androgen impacts on differentiation of the male internal (Wolffian duct) and external genitalia (penis) has been drastically expanded upon. Between these two morphologically and functionally distinct organs, divergent signals facilitate the establishment of tissue-specific identities. Conversely, conserved actions of androgen signaling are present in both tissues and are largely responsible for the growth and expansion of the organs. In this review we synthesize the existing knowledge of the cell type-specific, organ specific, and conserved signaling mechanisms of androgens. Mechanistic studies on androgen signaling in the Wolffian duct and male external genitalia have largely been conducted in mouse model organisms. Therefore, the majority of the review is focused on mouse model studies.

A brief history of sex determination

A fundamental biological question that has puzzled, but also fascinated mankind since antiquity is the one pertaining to the differences between sexes. Ancient cultures and mythologies poetically intended to explain the origin of the two sexes; philosophy offered insightful albeit occasionally paradoxical perceptions about men and women; and society as a whole put forward numerous intuitive observations about the traits that distinguish the two sexes. However, it was only through meticulous scientific research that began in the 16th century, and gradual technical improvements that followed over the next centuries, that the study of sex determination bore fruit. Here, we present a brief history of sex determination studies from ancient times until today, by selectively interviewing some of the milestones in the field. We complete our review by outlining some yet unanswered questions and proposing future experimental directions.