MAP3K4 kinase activity dependent control of mouse gonadal sex determination

Author:

Shendy Noha A M12,Broadhurst Amber L1,Shoemaker Kristin1,Read Robert1,Abell Amy N1

Affiliation:

1. Department of Biological Sciences, University of Memphis, Memphis, TN, USA

2. Department of Chemistry, Faculty of Science, Mansoura University, Mansoura, Egypt

Abstract

Abstract Sex determination requires the commitment of bipotential gonads to either a testis or an ovarian fate. Gene deletion of the kinase Map3k4 results in gonadal sex reversal in XY mice, and transgenic re-expression of Map3k4 rescues the sex reversal phenotype. Map3k4 encodes a large, multi-functional protein possessing a kinase domain and several, additional protein–protein interaction domains. Although MAP3K4 plays a critical role in male gonadal sex determination, it is unknown if the kinase activity of MAP3K4 is required. Here, we use mice expressing full-length, kinase-inactive MAP3K4 from the endogenous Map3k4 locus to examine the requirement of MAP3K4 kinase activity in sex determination. Although homozygous kinase-inactivation of MAP3K4 (Map3k4KI/KI) is lethal, a small fraction survive to adulthood. We show Map3k4KI/KI adults exhibit a 4:1 female-biased sex ratio. Many adult Map3k4KI/KI phenotypic females have a Y chromosome. XY Map3k4KI/KI adults with sex reversal display female mating behavior, but do not give rise to offspring. Reproductive organs are overtly female, but there is a broad spectrum of ovarian phenotypes, including ovarian absence, primitive ovaries, reduced ovarian size, and ovaries having follicles in all stages of development. Further, XY Map3k4KI/KI adults are smaller than either male or female Map3k4WT/WT mice. Examination of the critical stage of gonadal sex determination at E11.5 shows that loss of MAP3K4 kinase activity results in the loss of Sry expression in XY Map3k4KI/KI embryos, indicating embryonic male gonadal sex reversal. Together, these findings demonstrate the essential role for kinase activity of MAP3K4 in male gonadal sex determination.

Funder

National Institute of Health General Medical Sciences

Memphis Research Consortium

NIH

Publisher

Oxford University Press (OUP)

Subject

Cell Biology,General Medicine,Reproductive Medicine

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1. MAP3K4 kinase action and dual role in cancer;Discover Oncology;2024-04-03

2. MAP3K4 promotes fetal and placental growth by controlling the receptor tyrosine kinases IGF1R/IR and Akt signaling pathway;Journal of Biological Chemistry;2022-09

3. Novel mutation of MAP3K1 gene in 46,XY DSD with complete gonadal dysgenesis;Taiwanese Journal of Obstetrics and Gynecology;2022-09

4. Role of p38 MAPK Signalling in Testis Development and Male Fertility;Oxidative Medicine and Cellular Longevity;2022-08-31

5. Early Gonadal Development and Sex Determination in Mammal;International Journal of Molecular Sciences;2022-07-06

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