Expression and Functional Characterization of LRRC4, a Novel Brain-specific Member of the LRR Superfamily

Overview

Journal FEBS Lett

Specialty Biochemistry

Date 2005 Jun 22

PMID 15967442

Citations 15

Authors

Qiuhong Zhang

Jieru Wang

Songqing Fan

Lili Wang

Li Cao

Ke Tang

Cong Peng

Zheng Li

Weifang Li

Kai Gan

Zhongqi Liu

Xiaoling Li

Shourong Shen

Guiyuan Li

Affiliations

Soon will be listed here.

Abstract

LRRC4, a novel member of LRR superfamily thought to be involved in development and tumorigenesis of the nervous tissue, has the potential to suppress tumorigenesis and cell proliferation of U251MG cells. This study aimed at revealing the correlation between expression of LRRC4 and the maintenance of normal function and tumorigenesis suppression within the central nervous system. We systematically analyzed the expression and tissue distributions of the gene in tissues. Results showed that LRRC4 expression was limited to normal adult brain, both in human and in mouse, and exhibited a development-regulated pattern, but was down-regulated in brain tumor tissues and U251MG cell line. Furthermore, dynamic alterations in gene expression associated with cell cycle progression were investigated by using Tet-on system. Results showed that LRRC4 induced a cell cycle delay at the late G1 phase, probably through the alteration of the expression of different cell cycle regulating proteins responsible for mediating G1-S progression, such as p21(Waf1/Cip1) and p27(Kip1), Cdk2 and PCNA, p-ERK1/2. These findings suggest that LRRC4 may play an important role in maintaining normal function and suppressing tumorigenesis in the central nervous system.

Citing Articles

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LRRC4 functions as a neuron-protective role in experimental autoimmune encephalomyelitis.

Zhang Y, Li D, Zeng Q, Feng J, Fu H, Luo Z Mol Med. 2021; 27(1):44.

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Genome-wide association study across pediatric central nervous system tumors implicates shared predisposition and points to 1q25.2 (PAPPA2) and 11p12 (LRRC4C) as novel candidate susceptibility loci.

Foss-Skiftesvik J, Hagen C, Mathiasen R, Adamsen D, Baekvad-Hansen M, Borglum A Childs Nerv Syst. 2020; 37(3):819-830.

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The Role of Synaptic Cell Adhesion Molecules and Associated Scaffolding Proteins in Social Affiliative Behaviors.

Taylor S, Ferri S, Grewal M, Smernoff Z, Bucan M, Weiner J Biol Psychiatry. 2020; 88(6):442-451.

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NGL-1/LRRC4C Deletion Moderately Suppresses Hippocampal Excitatory Synapse Development and Function in an Input-Independent Manner.

Choi Y, Park H, Jung H, Kweon H, Kim S, Lee S Front Mol Neurosci. 2019; 12:119.

PMID: 31156385 PMC: 6528442. DOI: 10.3389/fnmol.2019.00119.