Jianquan Wang scite author profile

The topipotency of the germline is the full manifestation of the pluri- and multipotency of embryonic and adult stem cells, thus the germline and stem cells must share common mechanisms that guarantee their multipotentials in development. One of the few such known shared mechanisms is represented by Piwi proteins, which constitute one of the two subfamilies of the Argonaute protein family. Piwi proteins bind to Piwi-interacting RNAs (piRNAs) that are generally 26–31 nucleotides in length. Both Piwi proteins and piRNAs are most abundantly expressed in the germline. Moreover, Piwi proteins are expressed broadly in certain types of somatic stem/progenitor cells and other somatic cells across animal phylogeny. Recent studies indicate that the Piwi-piRNA pathway mediates epigenetic programming and post-transcriptional regulation, which may be responsible for its function in germline specification, gametogenesis, stem cell maintenance, transposon silencing, and genome integrity in diverse organisms.

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Lin28-mediated post-transcriptional regulation of Oct4 expression in human embryonic stem cells

Qiu

Wang

et al. 2009

202

229

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Lin28 acts as a repressor of microRNA processing and as a post-transcriptional regulatory factor for a subset of mRNAs. Here we report that in human embryonic stem cells Lin28 facilitates the expression of the pivotal pluripotency factor Oct4 at the post-transcriptional level. We provide evidence that Lin28 binds Oct4 mRNA directly through high affinity sites within its coding region and that an interaction between Lin28 and RNA helicase A (RHA) may play a part in the observed regulation. We further demonstrate that decreasing RHA levels impairs Lin28-dependent stimulation of translation in a reporter system. Taken together with previous studies showing that RHA is required for efficient translation of a specific class of mRNAs, these findings suggest a novel mechanism by which Lin28 may affect target mRNA expression and represent the first evidence of post-transcriptional regulation of Oct4 expression by Lin28 in human embryonic stem cells.

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Increased oxidative damage in nuclear and mitochondrial DNA in mild cognitive impairment

Wang

Markesbery

Lovell

2006

Journal of Neurochemistry

246

175

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Increasing evidence suggests that oxidative damage is associated with normal aging and several neurodegenerative diseases. Mild cognitive impairment (MCI), the phase between normal aging and early dementia, is a common problem in the elderly with many subjects going on to develop Alzheimer's disease (AD). Although increased DNA oxidation is observed in the AD brain, it is unclear when the oxidative damage begins. To determine if DNA oxidation occurs in the brain of subjects with MCI, we quantified multiple oxidized bases in nuclear and mitochondrial DNA isolated from frontal, parietal and temporal lobes and cerebellum of short post-mortem interval autopsies of eight amnestic patients with MCI and six age-matched control subjects using gas chromatography/ mass spectrometry with selective ion monitoring. We found statistically significant elevations (p < 0.05) of 8-hydroxyguanine, a widely studied biomarker of DNA damage, in MCI nuclear DNA from frontal and temporal lobe and in mitochondrial DNA from the temporal lobe compared with age-matched control subjects. Levels of 8-hydroxyadenine and 4,6-diamino-5-formamidopyrimidine were significantly elevated in nuclear DNA from all three neocortical regions in MCI. Statistically significant elevations of 4,6-diamino-5-formamidopyrimidine were also observed in mitochondrial DNA of MCI temporal, frontal and parietal lobes. These results suggest that oxidative damage to nuclear and mitochondrial DNA occurs in the earliest detectable phase of AD and may play a meaningful role in the pathogenesis of this disease.

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Mili Interacts with Tudor Domain-Containing Protein 1 in Regulating Spermatogenesis

et al. 2009

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SUMMARY Piwi proteins play essential roles in germline development, stem cell self-renewal, epigenetic regulation, and transposon silencing, and are implicated in oncogenesis [1-7]. Piwi proteins bind to a complex class of small non-coding RNAs called Piwi-Interacting RNAs (piRNAs) [8]. Mammalian Piwi proteins such as Mili are localized in the cytoplasm of spermatogenic cells, where they are associated with a germline-specific organelle called the nuage or its derivative, the chromatoid body, as well as with polysomes [9]. To investigate the molecular mechanisms mediated by Mili, we searched for Mili interacting proteins using co-immunoprecipitation and mass spectrometry. Here we report that Mili specifically interacts with Tudor Domain Containing Protein 1 (Tdrd1; a.k.a. Mouse Tudor Repeat 1, Mtr-1), a germline protein that contains multiple Tudor domains [10, 11]. This RNA-independent interaction is mediated through the N-terminal domain of Mili and the N-terminal region of Tdrd1 containing the Myeloid Nervy DEAF-1 (MYND) domain and first two Tudor domains. In addition, Mili positively regulates Tdrd1 expression at the mRNA level. Furthermore, Mili and Tdrd1 mutants share similar spermatogenic defects. However, Tdrd1, unlike Mili, is not required for piRNA biogenesis. Our results suggest that Mili interacts with Tdrd1 in the nuage and chromatoid body. This interaction does not contribute to piRNA biogenesis, but represents a regulatory mechanism critical for spermatogenesis.

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Jianquan Wang

Uniting Germline and Stem Cells: The Function of Piwi Proteins and the piRNA Pathway in Diverse Organisms

Lin28-mediated post-transcriptional regulation of Oct4 expression in human embryonic stem cells

Increased oxidative damage in nuclear and mitochondrial DNA in mild cognitive impairment

Mili Interacts with Tudor Domain-Containing Protein 1 in Regulating Spermatogenesis

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