Abstract
One of the most substantial and established environmental risk factors for neurological and psychiatric disorders is stress exposure, whose detrimental consequences hinge on several variables including time. In this regard the gestational period is known to present an intrinsic vulnerability to environmental insults and thus stressful events during pregnancy can lead to severe consequences on the offspring’s brain development with long-term repercussions throughout adulthood. On this basis, we investigated the long-lasting impact of prenatal stress exposure on the susceptibility to the experimental autoimmune encephalomyelitis (EAE), a well-established murine model of multiple sclerosis. Although stress is considered a triggering factor for this chronic, progressive, autoimmune disease, little is known about the underlying mechanisms. To this end, EAE was induced by immunization with MOG35-55/CFA and pertussis toxin administration in adult female C57BL/6 mice born from control or stressed dams exposed to restraint stress during the last days of gestation. Our results demonstrate that gestational stress induces a marked increase in the severity of EAE symptoms in adulthood. Further, we highlight an altered maturation of oligodendrocytes in the spinal cord of prenatally stressed EAE mice, as indicated by the higher levels of GPR17, a marker of immature oligodendrocyte precursor cells. These behavioral and molecular alterations are paralleled by changes in the expression and signaling of the neurotrophin BDNF, an important mediator of neural plasticity that may contribute to stress-induced impaired remyelination. Since several already marketed drugs are able to modulate BDNF levels, these results pave the way to the possibility of repositioning these drugs in multiple sclerosis.
Highlights
Stress experience has been consistently established to be a major environmental factor in the etiology of several neurological and psychiatric diseases (Gradus 2017)
To establish the lasting effects of prenatal stress (PNS) in the offspring after weaning, we monitored the weight of female pups from PND 24 to PND 56, finding that early stress reduced the body weight of female pups born from stressed dams compared to the non-stressed counterpart (Two-way repeated measures (RM) analysis of variance (ANOVA), PNS effect: F1,56 = 25.78, P < 0.0001; Fig. 2e)
Among this plethora of diseases characterized by susceptibility to fetal programming, little is known about the impact of insults happening to the intrauterine life on multiple sclerosis (MS)
Summary
Stress experience has been consistently established to be a major environmental factor in the etiology of several neurological and psychiatric diseases (Gradus 2017). Even though the more robust evidences for BDNF modulation by early life stress derive from preclinical studies, it has been reported in humans that maternal experiences of chronic stress-such as war trauma- are associated with alterations of BDNF methylation in both newborn and maternal tissues (Kertes et al 2017) and the level of the neurotrophin in the amniotic fluid during pregnancy is positively correlated to maternal early adversity exposure (Deuschle et al 2018) On these bases, the aim of our study was to investigate the potential long-lasting impact of PNS exposure on the susceptibility to pathologies known to be characterized by alterations of neural function and plasticity, such as multiple sclerosis (MS), an autoimmune disease whose incidence is greatly increasing among young individuals, beginning in adolescence (GBD 2016 Neurology Collaborators 2019). Most studies using the experimental autoimmune encephalomyelitis (EAE) mouse—the most commonly model for MS—are focused on the long-term effects of neonatal manipulations (Krementsov and Teuscher 2013; Teunis et al 2002; Columba-Cabezas et al 2009; Case et al 2010) but the influence of stress during gestation on EAE has not yet been investigated
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