Abstract
Complement component 8gamma (C8γ), a member of the lipocalin protein family, is suggested to act as a carrier protein for various chemicals. Although C8γ has been identified in both humans and rodents for some time, our understanding of the species differences in its chemical binding properties remains limited. In the present study, with the aim to elucidate the potential role of C8γ as a carrier protein in both humans and mice, we conducted a radioligand binding assay to examine the chemical binding properties of human C8γ (hC8γ) and mouse C8γ (mC8γ). Scatchard analysis revealed that [14C]TPT bound to hC8γ with an equilibrium dissociation constant (Kd) of 64.2 ± 32.4 nM, comparable to that of [14C]TPT to mC8γ. Competitive ligand-binding assays demonstrated binding of TPT and TBT to hC8γ, while diphenyltin, dibutyltin, monophenyltin, monobutyltin, and tetrabutyltin did not exhibit binding. These results suggest that for effective binding to C8γ, chemicals must possess substituents of appropriate bulkiness. Further analyses with other group 14 compounds with triphenyl substituents revealed that a central metal atom, rather than a central non-metal or semi-metal atom, is crucial for specific binding to both hC8γ and mC8γ. Overall our findings imply that C8γ may play a role in the physiological or toxicological actions of group 14 metal compounds with tributyl or triphenyl substituents by binding to these chemicals in both humans and mice.
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