TY - JOUR
T1 - Analysis of the Interaction between globular head modules of human C1q and its candidate receptor gC1qR
AU - Pednekar, Lina
AU - Pathan, Ansar A.
AU - Paudyal, Basudev
AU - Tsolaki, Anthony G.
AU - Kaur, Anuvinder
AU - Abozaid, Suhair M.
AU - Kouser, Lubna
AU - Khan, Haseeb A.
AU - Peerschke, Ellinor I.
AU - Shamji, Mohamed H.
AU - Stenbeck, Gudrun
AU - Ghebrehiwet, Berhane
AU - Kishore, Uday
N1 - Publisher Copyright:
© 2016 Pednekar, Pathan, Paudyal, Tsolaki, Kaur, Abozaid, Kouser, Khan, Peerschke, Shamji, Stenbeck, Ghebrehiwet and Kishore.
PY - 2016
Y1 - 2016
N2 - The heterotrimeric globular head (gC1q) domain of human C1q is made up of the C-terminal ends of the three individual chains, ghA, ghB, and ghC. A candidate receptor for the gC1q domain is a multi-functional pattern recognition protein, gC1qR. Since understanding of gC1qR and gC1q interaction could provide an insight into the pleiotropic functions of gC1qR, this study was undertaken to identify the gC1qR-binding site on the gC1q domain, using the recombinant ghA, ghB, and ghC modules and their substitution mutants. Our results show that ghA, ghB, and ghC modules can interact with gC1qR independently, thus reinforcing the notion of modularity within the gC1q domain of human C1q. Mutational analysis revealed that while Arg162 in the ghA module is central to interaction between gC1qR and C1q, a single amino acid substitution (arginine to glutamate) in residue 114 of the ghB module resulted in enhanced binding. Expression of gC1qR and C1q in adherent monocytes with or without pro-inflammatory stimuli was also analyzed by qPCR; it showed an autocrine/paracrine basis of C1q and gC1qR interaction. Microscopic studies revealed that C1q and gC1qR are colocalized on PBMCs. Cell proliferation assays indicated that ghA, ghB, and ghC modules were able to attenuate phytohemagglutinin-stimulated proliferation of PBMCs. Addition of gC1qR had an additive effect on the anti-proliferative effect of globular head modules. In summary, our results identify residues involved in C1q-gC1qR interaction and explain, to a certain level, their involvement on the immune cell surface,which is relevant for C1q-induced functions including inflammation, infection, and immunity.
AB - The heterotrimeric globular head (gC1q) domain of human C1q is made up of the C-terminal ends of the three individual chains, ghA, ghB, and ghC. A candidate receptor for the gC1q domain is a multi-functional pattern recognition protein, gC1qR. Since understanding of gC1qR and gC1q interaction could provide an insight into the pleiotropic functions of gC1qR, this study was undertaken to identify the gC1qR-binding site on the gC1q domain, using the recombinant ghA, ghB, and ghC modules and their substitution mutants. Our results show that ghA, ghB, and ghC modules can interact with gC1qR independently, thus reinforcing the notion of modularity within the gC1q domain of human C1q. Mutational analysis revealed that while Arg162 in the ghA module is central to interaction between gC1qR and C1q, a single amino acid substitution (arginine to glutamate) in residue 114 of the ghB module resulted in enhanced binding. Expression of gC1qR and C1q in adherent monocytes with or without pro-inflammatory stimuli was also analyzed by qPCR; it showed an autocrine/paracrine basis of C1q and gC1qR interaction. Microscopic studies revealed that C1q and gC1qR are colocalized on PBMCs. Cell proliferation assays indicated that ghA, ghB, and ghC modules were able to attenuate phytohemagglutinin-stimulated proliferation of PBMCs. Addition of gC1qR had an additive effect on the anti-proliferative effect of globular head modules. In summary, our results identify residues involved in C1q-gC1qR interaction and explain, to a certain level, their involvement on the immune cell surface,which is relevant for C1q-induced functions including inflammation, infection, and immunity.
KW - C1q
KW - Cell proliferation
KW - GC1qR
KW - Globular head
KW - Protein-protein interaction
UR - http://www.scopus.com/inward/record.url?scp=85009357303&partnerID=8YFLogxK
U2 - 10.3389/fimmu.2016.00567
DO - 10.3389/fimmu.2016.00567
M3 - Article
AN - SCOPUS:85009357303
SN - 1664-3224
VL - 7
JO - Frontiers in Immunology
JF - Frontiers in Immunology
IS - DEC
M1 - 567
ER -