Doo Yang scite author profile

Chromatin compaction mediates progenitor to post-mitotic cell transitions and modulates gene expression programs, yet the mechanisms are poorly defined. Snf2h and Snf2l are ATP-dependent chromatin remodelling proteins that assemble, reposition and space nucleosomes, and are robustly expressed in the brain. Here we show that mice conditionally inactivated for Snf2h in neural progenitors have reduced levels of histone H1 and H2A variants that compromise chromatin fluidity and transcriptional programs within the developing cerebellum. Disorganized chromatin limits Purkinje and granule neuron progenitor expansion, resulting in abnormal post-natal foliation, while deregulated transcriptional programs contribute to altered neural maturation, motor dysfunction and death. However, mice survive to young adulthood, in part from Snf2l compensation that restores Engrailed-1 expression. Similarly, Purkinje-specific Snf2h ablation affects chromatin ultrastructure and dendritic arborization, but alters cognitive skills rather than motor control. Our studies reveal that Snf2h controls chromatin organization and histone H1 dynamics for the establishment of gene expression programs underlying cerebellar morphogenesis and neural maturation.

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Voluntary Running Triggers VGF-Mediated Oligodendrogenesis to Prolong the Lifespan of Snf2h-Null Ataxic Mice

Alvarez-Saavedra

Repentigny

Yang

et al. 2016

Cell Reports

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Exercise has been argued to enhance cognitive function and slow progressive neurodegenerative disease. Although exercise promotes neurogenesis, oligodendrogenesis and adaptive myelination are also significant contributors to brain repair and brain health. Nonetheless, the molecular details underlying these effects remain poorly understood. Conditional ablation of the Snf2h gene impairs cerebellar development producing mice with poor motor function, progressive ataxia, and death between postnatal days 25-45. Here, we show that voluntary running induced an endogenous brain repair mechanism that resulted in a striking increase in hindbrain myelination and the long-term survival of Snf2h cKO mice. Further experiments identified the VGF growth factor as a major driver underlying this effect. VGF neuropeptides promote oligodendrogenesis in vitro, whereas Snf2h cKO mice treated with full-length VGF-encoding adenoviruses removed the requirement of exercise for survival. Together, these results suggest that VGF delivery could represent a therapeutic strategy for cerebellar ataxia and other pathologies of the CNS.

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Snf2h Drives Chromatin Remodeling to Prime Upper Layer Cortical Neuron Development

Alvarez-Saavedra

Yan

Repentigny

et al. 2019

Front. Mol. Neurosci.

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Alterations in the homeostasis of either cortical progenitor pool, namely the apically located radial glial (RG) cells or the basal intermediate progenitors (IPCs) can severely impair cortical neuron production. Such changes are reflected by microcephaly and are often associated with cognitive defects. Genes encoding epigenetic regulators are a frequent cause of intellectual disability and many have been shown to regulate progenitor cell growth, including our inactivation of the Smarca1 gene encoding Snf2l, which is one of two ISWI mammalian orthologs. Loss of the Snf2l protein resulted in dysregulation of Foxg1 and IPC proliferation leading to macrocephaly. Here we show that inactivation of the closely related Smarca5 gene encoding the Snf2h chromatin remodeler is necessary for embryonic IPC expansion and subsequent specification of callosal projection neurons. Telencephalon-specific Smarca5 cKO embryos have impaired cell cycle kinetics and increased cell death, resulting in fewer Tbr2+ and FoxG1+ IPCs by mid-neurogenesis. These deficits give rise to adult mice with a dramatic reduction in Satb2+ upper layer neurons, and partial agenesis of the corpus callosum. Mice survive into adulthood but molecularly display reduced expression of the clustered protocadherin genes that may further contribute to altered dendritic arborization and a hyperactive behavioral phenotype. Our studies provide novel insight into the developmental function of Snf2h-dependent chromatin remodeling processes during brain development.

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Effects of Chronic Low-Dose Internal Radiation on Immune-Stimulatory Responses in Mice

Khan

Blimkie

Yang

et al. 2021

IJMS

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The Linear-No-Threshold (LNT) model predicts a dose-dependent linear increase in cancer risk. This has been supported by biological and epidemiological studies at high-dose exposures. However, at low-doses (LDR ≤ 0.1 Gy), the effects are more elusive and demonstrate a deviation from linearity. In this study, the effects of LDR on the development and progression of mammary cancer in FVB/N-Tg(MMTVneu)202Mul/J mice were investigated. Animals were chronically exposed to total doses of 10, 100, and 2000 mGy via tritiated drinking water, and were assessed at 3.5, 6, and 8 months of age. Results indicated an increased proportion of NK cells in various organs of LDR exposed mice. LDR significantly influenced NK and T cell function and activation, despite diminishing cell proliferation. Notably, the expression of NKG2D receptor on NK cells was dramatically reduced at 3.5 months but was upregulated at later time-points, while the expression of NKG2D ligand followed the opposite trend, with an increase at 3.5 months and a decrease thereafter. No noticeable impact was observed on mammary cancer development, as measured by tumor load. Our results demonstrated that LDR significantly influenced the proportion, proliferation, activation, and function of immune cells. Importantly, to the best of our knowledge, this is the first report demonstrating that LDR modulates the cross-talk between the NKG2D receptor and its ligands.

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Drosophila H2A and H2A.Z Nucleosome Sequences Reveal Different Nucleosome Positioning Sequence Patterns

Yang

Ioshikhes

2017

Journal of Computational Biology

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Nucleosomes are implicated in transcriptional regulation as well as in packing and stabilizing the DNA. Nucleosome positions affect the transcription by impeding or facilitating the binding of transcription factors. The DNA sequence, especially the periodic occurrences of dinucleotides, is a major factor that affects the nucleosome positioning. We analyzed the Drosophila DNA sequences bound by H2A and H2A.Z nucleosomes. Periodic patterns of dinucleotides (weak-weak/strong-strong or purine-purine/pyrimidine-pyrimidine) were identified as WW/SS and RR/YY nucleosome positioning sequence (NPS) patterns. The WW/SS NPS pattern of the H2A nucleosome has a 10-bp period of weak-weak/strong-strong (W = A or T; S = G or C) dinucleotides. The 10-bp periodicity, however, is disrupted in the middle of the sequence. At the dyad, the SS dinucleotide is preferred. On the other hand, the RR/YY NPS pattern has an 18-bp periodicity of purine-purine/pyrimidine-pyrimidine (R = A or G; Y = T or C) dinucleotides. The NPS patterns from H2A.Z nucleosomes differ from the NPS patterns from H2A nucleosomes. The RR/YY pattern of H2A.Z nucleosomes has major peaks shifted by 10 bp deviated from the H2A nucleosome pattern. The H2A and H2A.Z nucleosomes have different sequence preferences. The shifted peaks coincide with DNA regions interacting with the histone loops.

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Doo Yang

Snf2h-mediated chromatin organization and histone H1 dynamics govern cerebellar morphogenesis and neural maturation

Voluntary Running Triggers VGF-Mediated Oligodendrogenesis to Prolong the Lifespan of Snf2h-Null Ataxic Mice

Snf2h Drives Chromatin Remodeling to Prime Upper Layer Cortical Neuron Development

Effects of Chronic Low-Dose Internal Radiation on Immune-Stimulatory Responses in Mice

Drosophila H2A and H2A.Z Nucleosome Sequences Reveal Different Nucleosome Positioning Sequence Patterns

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