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Prion Protein, its Role in Cellular Proliferation, Differentiation and Nervous System Development


Authors: Z. Hanusová 1;  J. Kučerová 1,2;  M. Filipová 1;  Z. Jindrová 1,3;  K. Holada 1
Authors‘ workplace: Ústav imunologie a mikrobiologie, 1. LF UK v Praze 1;  Přírodovědecká fakulta, UK v Praze 2;  3. lékařská fakulta UK v Praze 3
Published in: Cesk Slov Neurol N 2015; 78/111(4): 406-412
Category: Review Article

Overview

The cellular prion protein (PrPC) is well-known for its ability to converse into its pathological isoform, PrPTSE. Accumulation of PrPTSE in the brain is associated with pathogenesis of prion diseases. Numerous studies have suggested that PrPC has a number of physiological functions and participates in many cellular processes. However, convincing evidence is still missing. Possible functions of PrPC include a role in regulation of apoptosis, protection against oxidative stress, cell adhesion or processes of learning and memory. This protein also seems to influence cell proliferation and differentiation. The level of PrPC expression during embryonic development affects transcription of genes encoding factors involved in the regulation of stem cells pluripotency at early stages of differentiation. In the nervous system, PrPC plays an important role in neuronal development, maturation and neural circuit formation. Finally, PrPC can probably also participate in the differentiation and proliferation of tissue-specific stem cells such as neuronal, hematopoietic or myogenic precursors.

Key words:
prions – prion protein – PrPC – cell differentiation – cell proliferation – embryonic stem cells – neurons – neurogenesis

The authors declare they have no potential conflicts of interest concerning drugs, products, or services used in the study.

The Editorial Board declares that the manu­script met the ICMJE “uniform requirements” for biomedical papers.


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