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Abstract
Regulation of complement activation in the host cells is mediated primarily by the regulators of complement activation (RCA) family proteins that are formed by tandemly repeating complement control protein (CCP) domains. Functional annotation of these proteins, however, is challenging as contiguous CCP domains are found in proteins with varied functions. Here, by employing an in silico approach, we identify five motifs which are conserved spatially in a specific order in the regulatory CCP domains of known RCA proteins. We report that the presence of these motifs in a specific pattern is sufficient to annotate regulatory domains in RCA proteins. We show that incorporation of the lost motif in the fourth long-homologous repeat (LHR-D) in complement receptor 1 regains its regulatory activity. Additionally, the motif pattern also helped annotate human polydom as a complement regulator. Thus, we propose that the motifs identified here are the determinants of functionality in RCA proteins.
Highlights
Regulation of complement activation in the host cells is mediated primarily by the regulators of complement activation (RCA) family proteins that are formed by tandemly repeating complement control protein (CCP) domains
To assess whether the identified signature motif pattern is capable of annotating the regulatory domains in RCA proteins, we examined their specific location in human (DAF, membrane cofactor protein (MCP), C4b binding protein (C4BP), complement receptor 1 (CR1) and factor H (FH)) as well as viral (VCP, SPICE, MOPICE, KAPOSICA, HVS-CCPH and RCP-1) RCA proteins, some of which harbour multiple non-regulatory CCP domains in addition to the regulatory CCP domains
Predictions are typically made on the basis of the exclusive presence of CCP domains in a protein, and sequence similarity with the known RCA proteins
Summary
Regulation of complement activation in the host cells is mediated primarily by the regulators of complement activation (RCA) family proteins that are formed by tandemly repeating complement control protein (CCP) domains. Protection of host cells from complement is largely mediated by a family of proteins termed regulators of complement activation (RCA), which target C3 convertases. It is, not surprising that mutations and polymorphisms in RCA proteins are linked to various diseases such as age-related macular degeneration, atypical haemolytic uraemic syndrome and dense deposit disease[4,5,6]. C3 convertases by the serine protease factor I due to its recruitment onto the C3b/C4b-RCA protein complex
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