Abstract
Aging is the major risk factor of the most common (∼95% of cases) sporadic Alzheimer’s disease (AD). Accumulating data indicate middle age as a critical period for the relevant pathological processes, however, the question of when AD starts to develop remains open. It has been reported only recently that in the early postnatal period—when brain development is completing—preconditions for a decrease in cognitive abilities and for accelerated aging can form. Here, we hypothesized that specific features of early postnatal brain development may be considered some of the prerequisites of AD development at an advanced age. To test this hypothesis, we used OXYS rats, which are a suitable model of sporadic AD. The duration of gestation, litter size, and weight at birth were lower in OXYS rats compared to control Wistar rats. The shortened duration of gestation may result in developmental retardation. Indeed, we noted decreased locomotor activity and increased anxiety in OXYS rats already at a young age: possible signs of altered brain development. We demonstrated retardation of the peak of postnatal neurogenesis in the hippocampal dentate gyrus of OXYS rats. Delayed neuronal maturation led to alterations of mossy-fiber formation: a shortened suprapyramidal bundle and longer infrapyramidal bundle, less pronounced fasciculation of granule cells’ axons, and smaller size and irregular shape of nuclei in the CA3 pyramidal layer. These changes were accompanied by altered astrocytic migration. The observed features of early development may be considered some of the risk factors of the AD-like pathology that manifests itself in OXYS rats late in life.
Highlights
Alzheimer’s disease (AD) is detrimental neurodegenerative disorder that over 50 million people suffer from, and a figure set to increase to 152 million by 2050 (Alzheimer’s Disease International, 2019)
The results were suggestive of altered migration of astrocytic cells from the dentate gyrus (DG) in OXYS rats during postnatal brain formation. It is only in the recent years that researchers turned their attention to the role of early stages of life in the development of AD and to the fact that the early postnatal period may be when the first risk factors of subsequent cognitive impairment and accelerated aging may form (Hall et al, 2015)
We tried to evaluate the possible contribution—of alterations in the brain parameters reflecting its maturity at birth and in the period of postnatal development—to the development of AD-like pathology in OXYS rats
Summary
Alzheimer’s disease (AD) is detrimental neurodegenerative disorder that over 50 million people suffer from, and a figure set to increase to 152 million by 2050 (Alzheimer’s Disease International, 2019). It was reported that prenatal hypoxia (Nalivaeva et al, 2018) and low weight at birth (Heinonen et al, 2015) may be among these factors determining the brain development trajectory as well as the risk of AD Such conditions can be caused by preterm birth (including 1st degree preterm birth, which usually is not accompanied by cognitive deficits) as well as by trophic insufficiency during gestation owing to a number of causes (Lesuis et al, 2018). Another important factor which may exert long-lasting effects on brain functioning and contribute to neurodegeneration is perinatal infections. Even though the time scales are considerably different, the sequence of key events of brain maturation is largely consistent between humans and rodents, experimental research is constrained by the lack of valid biological models of the sporadic form of such a complex condition as AD
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