AI Article Synopsis
- The calcium-sensing receptor (CaR) regulates extracellular calcium levels and is also influenced by amino acids and pH, suggesting a broader role beyond just calcium homeostasis.
- Recent research indicates that CaR is present in the stomach and intestinal tract, where it may regulate gastrin and acid secretion in response to nutrients like calcium and amino acids.
- Studies comparing CaR-null mice with normal mice showed that CaR is essential for proper G-cell function and growth, making it a significant sensor for nutrient regulation and highlighting the potential need to reevaluate medications targeting calcium homeostasis.
Article Abstract
The calcium-sensing receptor (CaR) is the major sensor and regulator of extracellular Ca(2+), whose activity is allosterically regulated by amino acids and pH. Recently, CaR has been identified in the stomach and intestinal tract, where it has been proposed to function in a non-Ca(2+) homeostatic capacity. Luminal nutrients, such as Ca(2+) and amino acids, have been recognized for decades as potent stimulants for gastrin and acid secretion, although the molecular basis for their recognition remains unknown. The expression of CaR on gastrin-secreting G cells in the stomach and their shared activation by Ca(2+), amino acids, and elevated pH suggest that CaR may function as the elusive physiologic sensor regulating gastrin and acid secretion. The genetic and pharmacologic studies presented here comparing CaR-null mice and wild-type littermates support this hypothesis. Gavage of Ca(2+), peptone, phenylalanine, Hepes buffer (pH 7.4), and CaR-specific calcimimetic, cinacalcet, stimulated gastrin and acid secretion, whereas the calcilytic, NPS 2143, inhibited secretion only in the wild-type mouse. Consistent with known growth and developmental functions of CaR, G-cell number was progressively reduced between 30 and 90 d of age by more than 65% in CaR-null mice. These studies of nutrient-regulated G-cell gastrin secretion and growth provide definitive evidence that CaR functions as a physiologically relevant multimodal sensor. Medicinals targeting diseases of Ca(2+) homeostasis should be reviewed for effects outside traditional Ca(2+)-regulating tissues in view of the broader distribution and function of CaR.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2955134 | PMC |
| http://dx.doi.org/10.1073/pnas.1009078107 | DOI Listing |
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