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Calcium sensing receptor in developing human airway smooth muscle.

Journal of cellular physiology (2019-01-10)
Anne M Roesler, Sarah A Wicher, Jovanka Ravix, Rodney D Britt, Logan Manlove, Jacob J Teske, Katelyn Cummings, Michael A Thompson, Carol Farver, Peter MacFarlane, Christina M Pabelick, Y S Prakash
ZUSAMMENFASSUNG

Airway smooth muscle (ASM) regulation of airway structure and contractility is critical in fetal/neonatal physiology in health and disease. Fetal lungs experience higher Ca2+ environment that may impact extracellular Ca2+ ([Ca2+ ]o ) sensing receptor (CaSR). Well-known in the parathyroid gland, CaSR is also expressed in late embryonic lung mesenchyme. Using cells from 18-22 week human fetal lungs, we tested the hypothesis that CaSR regulates intracellular Ca2+ ([Ca2+ ]i ) in fetal ASM (fASM). Compared with adult ASM, CaSR expression was higher in fASM, while fluorescence Ca2+ imaging showed that [Ca2+ ]i was more sensitive to altered [Ca2+ ]o . The fASM [Ca2+ ]i responses to histamine were also more sensitive to [Ca2+ ]o (0-2 mM) compared with an adult, enhanced by calcimimetic R568 but blunted by calcilytic NPS2143. [Ca2+ ]i was enhanced by endogenous CaSR agonist spermine (again higher sensitivity compared with adult). Inhibition of phospholipase C (U73122; siRNA) or inositol 1,4,5-triphosphate receptor (Xestospongin C) blunted [Ca2+ ]o sensitivity and R568 effects. NPS2143 potentiated U73122 effects. Store-operated Ca2+ entry was potentiated by R568. Traction force microscopy showed responsiveness of fASM cellular contractility to [Ca2+ ]o and NPS2143. Separately, fASM proliferation showed sensitivity to [Ca2+ ]o and NPS2143. These results demonstrate functional CaSR in developing ASM that modulates airway contractility and proliferation.