A rapid growth in human cerebellar development occurs in the third trimester, which is impeded by preterm delivery. The goal of this study was to characterize the impact of preterm delivery on the developmental program of the human cerebellum. Still born infants, which meant that all development up to that age had taken place in-utero, were age paired with preterm delivery infants, who had survived in an ex-utero environment, which meant that their development had also taken place outside the uterus. The two groups were assessed on quantitative measures that included molecular markers of granule neuron, purkinje neuron and bergmann glia differentiation, as well as the expression of the sonic hedgehog signaling pathway, that is important for cerebellar growth. We report that premature birth and development in an ex-utero environment leads to a significant decrease in the thickness and an increase in the packing density of the cells within the external granular layer and the inner granular layer well, as a reduction in the density of bergmann glial fibres. In addition, this also leads to a reduced expression of sonic hedgehog in the purkinje layer. We conclude that the developmental program of the cerebellum is specifically modified by events that follow preterm delivery.
The regulation of cell proliferation in the external granular layer (EGL) of the developing cerebellum is important for its normal patterning. An important signal that regulates EGL cell proliferation is Sonic hedgehog (Shh). Shh is secreted by the Purkinje cells (PC) and has a mitogenic effect on the granule cell precursors of the EGL. Deregulation of Shh signaling has been associated with abnormal development, and been implicated in medulloblastomas, which are tumors that arise from the cerebellum. Given the importance of the Shh pathway in cerebellum development and disease, there has been no systematic study of its expression pattern during human cerebellum development. In this study, we describe the expression pattern of Shh, its receptor patched, smoothened, and its effectors that belong to the Gli family of transcription factors, during normal human cerebellum development from 10 weeks of gestational age, and in medulloblastomas that represents a case of abnormal cell proliferation in the cerebellum. This expression pattern is compared to equivalent stages in the normal development of cerebellum in mouse, as well as in tumors. Important differences between human and mouse that reflect differences in the normal developmental program between the 2 species are observed. First, in humans there appears to be a stage of Shh signaling within the EGL, when the PC are not yet the source of Shh. Second, unlike in the postnatal mouse cerebellum, expression of Shh in the PC in the postnatal human cerebellum is downregulated. Finally, medulloblastomas in the human but not in patched heterozygote mouse express Shh. These results highlight cross-species differences in the regulation of the Shh signaling pathway.
Coordination between Extrinsic Extracellular Matrix Cues and Intrinsic Responses to Orient the Centrosome in Polarizing Cerebellar Granule Neurons
Successful axon targeting during development is critically dependent on directionality of axon extension and requires coordination between the extrinsic cues that provide spatial information to the axon and the intrinsic responses that regulate structural specification of the axon during neuronal polarization. How these responses are coordinated is unclear but are known to involve aligning the centrosome with the base of the emerging axon. We have used a novel in vitro micropatterning assay that spatially segregates the extrinsic cues used by polarizing cerebellar granule cells to orient axon extension and used it to investigate the signaling mechanisms responsible for coordinating centrosome positioning with intrinsic responses. The results show that, when laminin and/or vitronectin are used as spatially restricted cues in association with substrate-associated sonic hedgehog, they are sufficient to induce cell cycle arrest, that laminin and vitronectin then induce integrin-mediated signaling that upregulates phosphoinositide-3 kinase and PKC function to produce phosphatidylinositol 3,4,5-trisphosphate (PIP3) that is associated with the centrosome, that this PIP3 can interact with PKCphosphorylated growth-associated protein GAP-43, and that PKC-phosphorylated GAP-43 in turn is required for positioning Par6, Cdc42, and IQGAP1, all intrinsic response components, in proximity to the centrosome, such that, in the absence of GAP-43, they are mislocalized and microtubules are not oriented appropriately. We conclude from these results that GAP-43 plays an important role in coordinating extrinsic signaling and intrinsic responses in polarizing cerebellar granule neurons.
Both astroglia and microglia show region-specific distribution in CNS and often maladapt to age-associated alterations within their niche. Studies on autopsied substantia nigra of Parkinson’s disease (PD) patients and experimental models propose gliosis as a trigger for neuronal loss. Epidemiological studies propose an ethnic bias in PD prevalence, since Caucasians are more susceptible than non-whites. Similarly, different mice strains are variably sensitive to MPTP. We had earlier likened divergent MPTP-sensitivity of C57BL/6J and CD-1 mice with differential susceptibility to PD, based on differences in neuronal numbers.Here we examined whether the variability was also incumbent to inter-strain differences in glial features of male C57BL/6J and CD-1 mice. Stereological counts showed more microglia and fewer astrocytes in the substantia nigra of MPTP-susceptible normal C57BL/6J mice, suggesting persistence of an immune-vigilant state. MPTP-induced microgliosis and astrogliosis in both strains, suggests their involvement in pathogenesis. ELISA of pro-inflammatory cytokines in the ventral-midbrain revealed augmentation of TNF-α and IL-6 at middle-age in both strains that reduced at old-age, suggesting middle-age as a critical, inflamm-aging associated time-point. TNF-α levels were persistently high in C57BL/6J, through ageing and post-MPTP; while IL-6 and IL-1β were upregulated at old-age. CD-1 had higher levels of anti-inflammatory cytokine TGF-β. MPTP-challenge caused upregulation of enzymes MAO-A, MAO-B and iNOS in both strains. Post-MPTP enhancement in fractalkine and hemeoxygenase-1, may be neuronal compensatory signals. Lastly, ultrastructural observations of elongated astroglial/microglial mitochondria vis-à-vis the shrunken ones in neurons, suggest upscaling of their functions with neurotoxic consequences. Thus, astroglia and microglia modulate ageing and PD-susceptibility.Significance statementPeople of Caucasians ancestry are more susceptible to Parkinson’s disease, than the Asians, for reasons not completely understood. We designed a disease model around two different laboratory mice i.e. C57BL/6 and CD-1 mice and extrapolated the results to the ethnicities, using a neurotoxin 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine(MPTP). Our study provides objective evidence that astroglia are inherently more and microglia fewer in the mice that resist MPTP. They secrete low levels of neuroinflammatory proteins and their gut microbiota is typical. The astrocytic and microglia mitochondria may hold the key to cure neurodegeneration.
BackgroundBoth astroglia and microglia show region-specific distribution pattern in the central nervous system and often maladapt to age-associated alterations within their niche. Studies on autopsied substantia nigra of Parkinson’s disease (PD) patients and experimental models propose gliosis as a trigger for neuronal loss. Epidemiological studies propose an ethnic bias in PD prevalence, since Caucasians are more susceptible than non-whites living in Asia and Africa. Similarly, different mice strains are variably sensitive to the neurotoxin MPTP (1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine). We had earlier likened divergent MPTP-sensitivity of C57BL/6J and CD-1 mice with differential susceptibility to PD, based on differences in neuronal numbers.MethodsHere we examined whether the variable susceptibility was also incumbent to inter-strain differences in the glial features in the substantia nigra pars compacta (SNpc) of C57BL/6J and CD-1 mice. We performed unbiased stereology to quantify iba-1 immunoreactive microglia and s100β immunopositive astroglia on immunohistochemically stained sections. Further, ELISA based estimation of pro- inflammatory and anti-inflammatory cytokines was supplemented with estimation of enzymes like fractalkine, hemeoxygenase, and monoamine oxidases A and B. Electron microscopy was performed to compare the effects on the organelles.ResultsStereological counts showed more microglia and fewer astrocytes in the substantia nigra of MPTP-susceptible normal C57BL/6J mice, which suggests persistence of an immune-vigilant state. MPTP caused induction of microgliosis and astrogliosis in both strains, suggesting the involvement of these cells in pathogenesis. ELISA of pro-inflammatory cytokines in the ventral-midbrain revealed augmentation of TNF-α and IL-6 at middle-age in both strains that reduced at old-age, suggesting middle-age as a critical, inflamm-aging associated time-point. TNF-α levels were persistently high in C57BL/6J, through aging and post-MPTP; while IL-6 and IL-1β were upregulated at old-age. CD-1 had higher levels of anti-inflammatory cytokine TGF-β. MPTP-challenge caused upregulation of enzymes MAO-A, MAO-B and iNOS in both strains. Post-MPTP enhancement in fractalkine and hemeoxygenase-1, may be neuronal compensatory signals. Lastly, ultrastructural observations of elongated mitochondria in astroglia and microglia vis-à-vis the shrunken ones in neurons, suggest upscaling of their functions with neurotoxic consequences.ConclusionsThus, astroglia and microglia play a critical role in modulating aging and the susceptibility of an individual to PD.
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