Abstract
BackgroundFrizzled family members belong to G-protein coupled receptors and encode proteins accountable for cell signal transduction, cell proliferation and cell death. Members of Frizzled receptor family are considered to have critical roles in causing various forms of cancer, cardiac hypertrophy, familial exudative vitreoretinopathy (FEVR) and schizophrenia.ResultsThis study investigates the evolutionary and structural aspects of Frizzled receptors, with particular focus on FEVR associated FZD4 gene. The phylogenetic tree topology suggests the diversification of Frizzled receptors at the root of metazoans history. Moreover, comparative structural data reveals that FEVR associated missense mutations in FZD4 effect the common protein region (amino acids 495–537) through a well-known phenomenon called epistasis. This critical protein region is present at the carboxyl-terminal domain and encompasses the K-T/S-XXX-W, a PDZ binding motif and S/T-X-V PDZ recognition motif.ConclusionTaken together these results demonstrate that during the course of evolution, FZD4 has acquired new functions or epistasis via complex patter of gene duplications, sequence divergence and conformational remodeling. In particular, amino acids 495–537 at the C-terminus region of FZD4 protein might be crucial in its normal function and/or pathophysiology. This critical region of FZD4 protein may offer opportunities for the development of novel therapeutics approaches for human retinal vascular disease.
Highlights
Frizzled family members belong to G-protein coupled receptors and encode proteins accountable for cell signal transduction, cell proliferation and cell death
The Frizzled family consists of 10 Frizzled receptors, FZD1, FZD2, FZD3, FZD4, FZD5, FZD6, FZD7, FZD8, FZD9 and FZD10
Cluster-I is further divided into three sub-clusters; sub-cluster of FZD10, FZD9 and FZD4, sub-cluster of FZD5-FZD8, and sub-cluster of FZD7, FZD2 and FZD1
Summary
Frizzled family members belong to G-protein coupled receptors and encode proteins accountable for cell signal transduction, cell proliferation and cell death. G-protein coupled receptors (GPCRs) are diverse group of membrane proteins, encoded by more than 800 genes in the human genome [1]. The function of GPCRs is to detect a wide range of extracellular signals, mainly small organic molecules and whole proteins [3]. Frizzleds (FZDs) are 7- transmembrane (TM) receptors reside on plasma membrane. They play an important regulatory role in controlling cell polarity and cell proliferation during embryonic development by transmitting signals from glycoproteins, mainly Wnt proteins [7]. Exploring differences and similarities among members of Frizzled Receptor family can be helpful in unraveling functional evolution of this family
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