Abstract
The enteroendocrine hormone, gastrin, exerts trophic effects on the gastric mucosa through the CCK-B/gastrin receptor (CCK-BR). To varying degrees in different species, excess circulating gastrin leads to proliferation of enterochromaffin-like cells and to the development of gastric carcinoid tumors. The African rodent, Mastomys natalensis, is distinguished from other mammals by its propensity toward CCK-BR-mediated growth even in the absence of hypergastrinemia. Here, we report that the Mastomys CCK-BR, when expressed in COS-7 cells, differs from the respective human, canine, and rat receptor homologs by its ability to trigger ligand-independent (i.e., constitutive) inositol phosphate formation. To define the molecular basis of this observation, a series of Mastomys-human chimeric receptors was investigated. Functional characterization of these constructs revealed that a limited segment of the Mastomys CCK-BR, transmembrane domain VI through the C-terminal end, is sufficient to confer constitutive activity to the human protein. Mutagenesis studies within this CCK-BR region defined a combination of three Mastomys amino acids that, when introduced into the human receptor, together conferred a level of ligand-independent signaling comparable with the Mastomys CCK-BR. Complementing prior observations that single point mutations can lead to ligand-independent signaling, our findings suggest that multiple naturally occurring amino acid polymorphisms and/or mutations may together result in an enhanced basal level of receptor activity.
Highlights
The cholecystokinin-B/gastrin receptor (CCK-BR)1 is a seven transmembrane domain G protein-coupled receptor that is widely expressed in the gastrointestinal tract and in the central nervous system [1]
We demonstrated that single and double amino acid differences between the mouse, human, and dog receptors led to marked alterations in drug-induced inositol phosphate formation, the primary second messenger generated in response to activation of the CCK-BR [9]
Comparison of the recombinant canine, rat, Mastomys, and human CCK-BRs expressed in COS-7 cells revealed that only the Mastomys receptor triggered ligand-independent IP formation
Summary
Materials—Restriction endonucleases and T4 DNA ligase were purchased from New England Biolabs Inc. Construction of Chimeric Receptor cDNAs—The Mastomys CCK-BR cDNA The XhoI and MluI chimeric receptor cDNAs were constructed by replacing segments of the human CCK-BR cDNA with the corresponding Mastomys sequence. All chimeric and mutant receptor cDNA constructs were confirmed using the Applied Biosystems 373 DNA sequencer. Utilizing the DEAE-dextran method [13], cells (106/10-cm dish) were transiently transfected with 5 g of either the expression vector, pcDNA I, or the relevant CCK-BR cDNA construct. In control experiments (see Fig. 4), the amount of transfected DNA was adjusted (1–5 g/10-cm dish) to obtain comparable receptor expression levels of the human and Mastomys CCK-BR. To determine the receptor-mediated component of IP production, all measurements were corrected by the amount of IP formation in COS-7 cells expressing pcDNA I (the expression vector) alone
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