Long-Term Effects of Late Gestation in Utero Hypoxic Stress on Neurodegeneration: Sex and Age Differences

Abstract

\n Introduction: In utero insults have been proposed to lead to the onset of neurodegenerative diseases later in life, such as Parkinson’s disease (PD). In utero hypoxia is associated with a multitude of conditions, such as maternal sleep apnea, preeclampsia, gestational diabetes, and maternal hypertension. Exposure to in utero hypoxia may impact male progeny more than female progeny, which may underlie the male biased sex differences in PD. It is currently unknown whether late gestational hypoxic stress has a long-term effect on brain regions associated with PD, such as the nigrostriatal pathway. We hypothesized that exposure to late gestational hypoxia will result in nigrostriatal impairment in adult male progeny compared to adult female progeny. Methods: Timed pregnant female Long-Evans rats were exposed to five days (gestational days: 15-20) of chronic intermittent hypoxia (CIH) or room air (normoxia - 21% O2) for 8 hours during their sleep phase. Each CIH cycle was 6 min of 3 min hypoxia (10% O2) and 3 min normoxia (21% O2) for a total of 10 CIH cycles/hour. Gestational age at delivery was recorded and neonate’s body weights were measured within 12-16 hours from birth. At weaning (postnatal day, PND 28), progeny was pair-housed with a conspecific of the same sex and similar weight. To examine PD, we focused on PD associated characteristics of oxidative stress in the nigrostriatal pathway and behavioral impairments of motor (open field activity and ultrasonic vocalizations) and cognitive (spatial memory) function during puberty (PND 40-45) and young adulthood (PND 60-65). Results: Gestational CIH had no effect on the duration of gestation, litter size, and neonatal weight at birth. Gestational CIH did not impact circulating oxidative stress, regardless of sex or age of progeny. Offspring gross motor function (open field activity) and cognitive (Morris Water maze) function were unaffected by gestational CIH. In contrast, gestational CIH impaired ultrasonic vocalizations in adult male progeny. Gestational CIH increased the latency to vocalize and decreased the loudness of the vocalizations in adult male progeny. Conclusion: Exposure to CIH during gestation resulted in nigrostriatal impairment in adult male progeny, as evidenced by impaired ultrasonic vocalizations that require a functional nigrostriatal pathway. In utero hypoxia during late gestation may increase the risk for PD in males.