Jun Zhong scite author profile

Facioscapulohumeral dystrophy (FSHD; OMIM #158900, #158901) is caused by mis-expression of the DUX4 transcription factor in skeletal muscle1. Animal models of FSHD are hampered by incomplete knowledge of the conservation of the DUX4 transcriptional program in other species2–5. Despite divergence of their binding motifs, both mouse Dux and human DUX4 activate genes associated with cleavage-stage embryos, including MERV-L and ERVL-MaLR retrotransposons, in mouse and human muscle cells respectively. When expressed in mouse cells, human DUX4 maintained modest activation of cleavage-stage genes driven by conventional promoters, but did not activate MERV-L-promoted genes. These findings indicate that the ancestral DUX4-factor regulated genes characteristic of cleavage-stage embryos driven by conventional promoters, whereas divergence of the DUX4/Dux homeodomains correlates with retrotransposon specificity. These results provide insight into how species balance conservation of a core transcriptional program with innovation at retrotransposon promoters and provide a basis for animal models that recreate the FSHD transcriptome.

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Genomic and Functional Fidelity of Small Cell Lung Cancer Patient-Derived Xenografts

Drapkin

et al. 2018

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Small cell lung cancer (SCLC) patient-derived xenografts (PDX) can be generated from biopsies or circulating tumor cells (CTC), though scarcity of tissue and low efficiency of tumor growth have previously limited these approaches. Applying an established clinical-translational pipeline for tissue collection and an automated microfluidic platform for CTC enrichment, we generated 17 biopsy-derived PDXs and 17 CTC-derived PDXs in a 2-year timeframe, at 89% and 38% efficiency, respectively. Whole-exome sequencing showed that somatic alterations are stably maintained between patient tumors and PDXs. Early-passage PDXs maintain the genomic and transcriptional profiles of the founder PDX. treatment with etoposide and platinum (EP) in 30 PDX models demonstrated greater sensitivity in PDXs from EP-naïve patients, and resistance to EP corresponded to increased expression of a gene signature. Finally, serial CTC-derived PDXs generated from an individual patient at multiple time points accurately recapitulated the evolving drug sensitivities of that patient's disease. Collectively, this work highlights the translational potential of this strategy. Effective translational research utilizing SCLC PDX models requires both efficient generation of models from patients and fidelity of those models in representing patient tumor characteristics. We present approaches for efficient generation of PDXs from both biopsies and CTCs, and demonstrate that these models capture the mutational landscape and functional features of the donor tumors. .

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BC1 Regulation of Metabotropic Glutamate Receptor-Mediated Neuronal Excitability

Zhong¹,

Chuang²,

Bianchi³

et al. 2009

J. Neurosci.

113

150

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Regulatory RNAs have been suggested to contribute to the control of gene expression in eukaryotes. Brain cytoplasmic (BC) RNAs are regulatory RNAs that control translation initiation. We now report that neuronal BC1 RNA plays an instrumental role in the proteinsynthesis-dependent implementation of neuronal excitation-repression equilibria. BC1 repression counter-regulates translational stimulation resulting from synaptic activation of group I metabotropic glutamate receptors (mGluRs). Absence of BC1 RNA precipitates plasticity dysregulation in the form of neuronal hyperexcitability, elicited by group I mGluR-stimulated translation and signaled through the mitogen-activated protein kinase kinase/extracellular signal-regulated kinase pathway. Dysregulation of group I mGluR function in the absence of BC1 RNA gives rise to abnormal brain function. Cortical EEG recordings from freely moving BC1 Ϫ/Ϫ animals show that group I mGluR-mediated oscillations in the gamma frequency range are significantly elevated. When subjected to sensory stimulation, these animals display an acute group I mGluR-dependent propensity for convulsive seizures. Inadequate RNA control in neurons is thus causally linked to heightened group I mGluR-stimulated translation, neuronal hyperexcitability, heightened gamma band oscillations, and epileptogenesis. These data highlight the significance of small RNA control in neuronal plasticity.

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Genetic and Epigenetic Determinants of Neurogenesis and Myogenesis

et al. 2012

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SUMMARY The regulatory networks of differentiation programs have been partly characterized; however, the molecular mechanisms of lineage-specific gene regulation by highly similar transcription factors remain largely unknown. Here we compare the genome-wide binding and transcription profiles of NEUROD2-mediated neurogenesis with MYOD-mediated myogenesis. We demonstrate that NEUROD2 and MYOD bind a shared CAGCTG E-box motif and E-box motifs specific for each factor: CAGGTG for MYOD and CAGATG for NEUROD2. Binding at factor-specific motifs is associated with gene transcription, whereas binding at shared sites is associated with regional epigenetic modifications but not as strongly associated with gene transcription. Binding is largely constrained to E-boxes pre-set in an accessible chromatin context that determines the set of target genes activated in each cell type. These findings demonstrate that the differentiation program is genetically determined by E-box sequence whereas cell lineage epigenetically determines the availability of E-boxes for each differentiation program.

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Jun Zhong

Conservation and innovation in the DUX4-family gene network

Genomic and Functional Fidelity of Small Cell Lung Cancer Patient-Derived Xenografts

BC1 Regulation of Metabotropic Glutamate Receptor-Mediated Neuronal Excitability

Genetic and Epigenetic Determinants of Neurogenesis and Myogenesis

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