Experimentally induced testicular dysgenesis syndrome originates in the masculinization programming window
Sander van den Driesche, Karen R. Kilcoyne, Ida Wagner, Diane Rebourcet, Ashley Boyle, Rod Mitchell, Chris McKinnell, Sheila Macpherson, Roland Donat, Chitranjan J. Shukla, Anne Jorgensen, Ewa Rajpert-De Meyts, Niels E. Skakkebaek, Richard M. Sharpe
Sander van den Driesche, Karen R. Kilcoyne, Ida Wagner, Diane Rebourcet, Ashley Boyle, Rod Mitchell, Chris McKinnell, Sheila Macpherson, Roland Donat, Chitranjan J. Shukla, Anne Jorgensen, Ewa Rajpert-De Meyts, Niels E. Skakkebaek, Richard M. Sharpe
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Research Article Endocrinology Reproductive biology

Experimentally induced testicular dysgenesis syndrome originates in the masculinization programming window

Abstract

The testicular dysgenesis syndrome (TDS) hypothesis, which proposes that common reproductive disorders of newborn and adult human males may have a common fetal origin, is largely untested. We tested this hypothesis using a rat model involving gestational exposure to dibutyl phthalate (DBP), which suppresses testosterone production by the fetal testis. We evaluated if induction of TDS via testosterone suppression is restricted to the “masculinization programming window” (MPW), as indicated by reduction in anogenital distance (AGD). We show that DBP suppresses fetal testosterone equally during and after the MPW, but only DBP exposure in the MPW causes reduced AGD, focal testicular dysgenesis, and TDS disorders (cryptorchidism, hypospadias, reduced adult testis size, and compensated adult Leydig cell failure). Focal testicular dysgenesis, reduced size of adult male reproductive organs, and TDS disorders and their severity were all strongly associated with reduced AGD. We related our findings to human TDS cases by demonstrating similar focal dysgenetic changes in testes of men with preinvasive germ cell neoplasia (GCNIS) and in testes of DBP-MPW animals. If our results are translatable to humans, they suggest that identification of potential causes of human TDS disorders should focus on exposures during a human MPW equivalent, especially if negatively associated with offspring AGD.

Authors

Sander van den Driesche, Karen R. Kilcoyne, Ida Wagner, Diane Rebourcet, Ashley Boyle, Rod Mitchell, Chris McKinnell, Sheila Macpherson, Roland Donat, Chitranjan J. Shukla, Anne Jorgensen, Ewa Rajpert-De Meyts, Niels E. Skakkebaek, Richard M. Sharpe

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Figure 2

Dibutyl phthalate–induced dysgenesis of the fetal testis at E17.5 (Leydig cell aggregation) or E21.5 (increased numbers of ectopic Sertoli cells) occurs after exposure in the masculinization programming window but not the late window.

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Dibutyl phthalate–induced dysgenesis of the fetal testis at E17.5 (Leydi...
Note that E17.5 is during the MPW, E21.5 is at the end of the LW. (A–E) Sections were triple immunostained for SOX9 (red; Sertoli cells), 3β-HSD (green; Leydig cells), and smooth muscle actin (SMA) (blue; peritubular myoid cells). Asterisks indicate normal seminiferous cords, and white arrows show examples of ectopic Sertoli cells, numbers of which were increased selectively at E21.5 (D and F) but not at E17.5 (B and F) in the DBP-MPW group; there was no change in ectopic Sertoli cells or fetal Leydig cell aggregation at E21.5 in the DBP-LW group (F). Scale bars: 20 μM. (F) Values are mean ± SEM, with analysis by 2-tailed Student’s t test (E17.5) or ANOVA with Bonferroni correction (E21.5) (***P < 0.001, in comparison to E21.5 control). DBP, dibutyl phthalate; dys, dysgenesis; MPW, masculinization programming window; LW, late window.