Effect of sex chromosomes versus hormones in neonatal lung injury
Sandra L. Grimm, Xiaoyu Dong, Yuhao Zhang, Alexandre F. Carisey, Arthur P. Arnold, Bhagavatula Moorthy, Cristian Coarfa, Krithika Lingappan
Sandra L. Grimm, Xiaoyu Dong, Yuhao Zhang, Alexandre F. Carisey, Arthur P. Arnold, Bhagavatula Moorthy, Cristian Coarfa, Krithika Lingappan
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Research Article Pulmonology

Effect of sex chromosomes versus hormones in neonatal lung injury

Abstract

The main mechanisms underlying sexually dimorphic outcomes in neonatal lung injury are unknown. We tested the hypothesis that hormone- or sex chromosome–mediated mechanisms interact with hyperoxia exposure to impact injury and repair in the neonatal lung. To distinguish sex differences caused by gonadal hormones versus sex chromosome complement (XX versus XY), we used the Four Core Genotypes (FCG) mice and exposed them to hyperoxia (95% FiO2, P1–P4: saccular stage) or room air. This model generates XX and XY mice that each have either testes (with Sry, XXM, or XYM) or ovaries (without Sry, XXF, or XYF). Lung alveolarization and vascular development were more severely impacted in XYM and XYF compared with XXF and XXM mice. Cell cycle–related pathways were enriched in the gonadal or chromosomal females, while muscle-related pathways were enriched in the gonadal males, and immune-response–related pathways were enriched in chromosomal males. Female gene signatures showed a negative correlation with human patients who developed bronchopulmonary dysplasia (BPD) or needed oxygen therapy at 28 days. These results demonstrate that chromosomal sex — and not gonadal sex — impacted the response to neonatal hyperoxia exposure. The female sex chromosomal complement was protective and could mediate sex-specific differences in the neonatal lung injury.

Authors

Sandra L. Grimm, Xiaoyu Dong, Yuhao Zhang, Alexandre F. Carisey, Arthur P. Arnold, Bhagavatula Moorthy, Cristian Coarfa, Krithika Lingappan

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Figure 2

Chromosomal sex but not gonadal sex had a significant impact on alveolarization after neonatal hyperoxia exposure in mice.

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Chromosomal sex but not gonadal sex had a significant impact on alveolar...
(AD) Representative H&E-stained sections from male and female neonatal mice exposed to room air or hyperoxia (95% FiO2, P1–P4) at ×10 and ×20 magnification in XXF (A), XXM (B), XYF (C), and XYM (D) mice. Lung morphometry in neonatal FCG mice (n = 5–6 mice per group) exposed to hyperoxia (95% FiO2, P1–P4) was assessed using mean linear intercept (MLI) and radial alveolar count (RAC). (E) MLI in FCG neonatal mice exposed to room air or hyperoxia on P21. (F) RAC in FCG neonatal mice exposed to room air or hyperoxia on P21. Data are shown as mean ± SD from 5–6 individual animals. Statistical analysis was performed using 3-way ANOVA to assess the effect of treatment, chromosomal sex and gonadal sex, as well as the interactions between the independent variables. Significant differences between room air and hyperoxia within genotype are indicated by ***P <0.001. Significant differences between hyperoxia-exposed mice between different genotypes are indicated by #P < 0.05, ##P < 0.01, and ###P < 0.001. Scale bars: 200 μm (×10) or 100 μm (×20).