Literature DB >> 20335479

Protogenin defines a transition stage during embryonic neurogenesis and prevents precocious neuronal differentiation.

Yu-Hui Wong1, Ai-Chu Lu, Yu-Chiuan Wang, Hsu-Chen Cheng, Celia Chang, Po-Hao Chen, Jenn-Yah Yu, Ming-Ji Fann.   

Abstract

Many Ig superfamily members are expressed in the developing nervous system, but the functions of these molecules during neurogenesis are not all clear. Here, we explore the expression and function of one of members of this superfamily, protogenin (PRTG), in the developing nervous system. Expression of PRTG protein is strong in the neural tube of mouse embryos between embryonic days 7.75 and 9.5 but disappears after embryonic day 10.5 when the neural progenitor marker nestin expresses prominently. Perturbation of PRTG activity in P19 embryonal carcinoma cells and in chick embryos, by either RNA interference or a dominant-negative PRTG mutant, increases neuronal differentiation. Using yeast two-hybrid screening and an in situ binding assay, we were able to identify ERdj3 (a stress-inducible endoplasmic reticulum DnaJ homolog) as a putative PRTG ligand. Addition of purified ERdj3 protein into the P19 differentiation assay reduced neurogenesis. This effect was blocked by addition of either a neutralizing antibody against PRTG or purified PRTG ectodomain protein, indicating that the effect of ERdj3 on neurogenesis is mediated through PRTG. Forced expression of ERdj3 in the chick neural tube also impairs neuronal differentiation. Together, these results suggest that expression of PRTG defines a stage between pluripotent epiblasts and committed neural progenitors, and its signaling plays a critical role in suppressing premature neuronal differentiation during early neural development.

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Year:  2010        PMID: 20335479      PMCID: PMC6634505          DOI: 10.1523/JNEUROSCI.0473-10.2010

Source DB:  PubMed          Journal:  J Neurosci        ISSN: 0270-6474            Impact factor:   6.167


  30 in total

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  27 in total

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2.  Serial analysis of gene expression in the chicken otocyst.

Authors:  Saku T Sinkkonen; Veronika Starlinger; Deepa J Galaiya; Roman D Laske; Samuel Myllykangas; Kazuo Oshima; Stefan Heller
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Review 3.  Regulating Secretory Proteostasis through the Unfolded Protein Response: From Function to Therapy.

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Review 5.  Towards a 'systems'-level understanding of the nervous system and its disorders.

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