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måndag 10 juni 2019

ZC2HC alaryhmä 12. Nanos-geenit ja proteiinit. ( CCHC)2 zinc finger proteiinit, onkofetaalit antigeenit

  • NANOS3 https://www.ncbi.nlm.nih.gov/gene/342977, ZC2HC12C, NANOS1L, NOS3
  • NANOS2 https://www.ncbi.nlm.nih.gov/gene/339345 ,ZC2HC12B, NOS2
  • NANOS1 https://www.ncbi.nlm.nih.gov/gene/340719, ZC2HC12A, NOS1, SPGF12
2018 Jun;75(11):1929-1946. doi: 10.1007/s00018-018-2766-3. Epub 2018 Feb 3.
Nanos genes and their role in development and beyond.

Abstract

The hallmark of Nanos proteins is their typical (CCHC)2 zinc finger motif (zf-nanos). Animals have one to four nanos genes. For example, the fruit fly and demosponge have only one nanos gene, zebrafish and humans have three, and Fugu rubripes has four.

Nanos genes are mainly known for their evolutionarily preserved role in germ cell survival and pluripotency. Nanos proteins have been reported to bind the C-terminal RNA-binding domain of Pumilio to form a post-transcriptional repressor complex. Several observations point to a link between the miRNA-mediated repression complex and the Nanos/Pumilio complex. Repression of the E2F3 oncogene product is, indeed, mediated by cooperation between the Nanos/Pumilio complex and miRNAs. Another important interaction partner of Nanos is the CCR4-NOT deadenylase complex. Besides the tissue-specific contribution of Nanos proteins to normal development, their ectopic expression has been observed in several cancer cell lines and various human cancers. An inverse correlation between the expression levels of human Nanos1 and Nanos3 and E-cadherin was observed in several cancer cell lines. Loss of E-cadherin, an important cell-cell adhesion protein, contributes to tumor invasion and metastasis. Overexpression of Nanos3 induces epithelial-mesenchymal transition in lung cancer cell lines partly by repressing E-cadherin. Other than some most interesting data from Nanos knockout mice, little is known about mammalian Nanos proteins, and further research is needed. In this review, we summarize the main roles of Nanos proteins and discuss the emerging concept of Nanos proteins as oncofetal antigens.

KEYWORDS:

Cancer; Cancer testis antigen; Germ cell specification; Multiprotein complexes; Nanos; Phylogeny; Pumilio; RNA regulation; RNA-binding protein; pRb deficiency
PMID:
29397397
DOI:
10.1007/s00018-018-2766-3

EMBO J. 1997 Feb 17;16(4):834-43.

A CCHC metal-binding domain in Nanos is essential for translational regulation.

The Drosophila Nanos protein is a localized repressor of hunchback mRNA translation in the early embryo, and is required for the establishment of the anterior-posterior body axis. Analysis of nanos mutants reveals that a small, evolutionarily conserved, C-terminal region is essential for Nanos function in vivo, while no other single portion of the Nanos protein is absolutely required. Within the C-terminal region are two unusual Cys-Cys-His-Cys (CCHC) motifs that are potential zinc-binding sites. Using absorption spectroscopy and NMR we demonstrate that the CCHC motifs each bind one equivalent of zinc with high affinity. nanos mutations disrupting metal binding at either of these two sites in vitro abolish Nanos translational repression activity in vivo. We show that full-length and C-terminal Nanos proteins bind to RNA in vitro with high affinity, but with little sequence specificity. Mutations affecting the hunchback mRNA target sites for Nanos-dependent translational repression were found to disrupt translational repression in vivo, but had little effect on Nanos RNA binding in vitro. Thus, the Nanos zinc domain does not specifically recognize target hunchback RNA sequences, but might interact with RNA in the context of a larger ribonucleoprotein complex.
PMID:
9049312
PMCID:
PMC1169684

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