The long-term objective of this project is to elucidate how the various functional elements of stimulus-response coupling become established in rat salivary acinar cells during postnatal development. Our findings during the current grant period have shown age-related and dose-related differences in the intermediate (IP3 formation, Ca2+ mobilization) steps of the signal transduction pathway after cholinergic stimulation. They have also shown an apparent dissociation between IP3/Ca2+ responses and more distal events (K and Cl efflux) of the secretory pathway in the early stages of postnatal development. Based on these observations, our goal for the new grant period is to further investigate aspects of the signal transduction process that may help explain these functional differences during Postnatal gland development. As in previous studies, we will use submandibular cells of 1, 7, 14 and 21-day old and of adult rats to compare the following: 1) Proximal events in signalling, including receptor affinity for acetylcholine; the presence and receptor coupling of G proteins; the activity and isoforms of phospholipase C; membrane phosphoinositides;c activities of lP3 Kinase, IP3 phosphatase, PI Kinase and PIP Kinase; the functional coupling of phospholipase C to muscarinic, substance P and alpha-adrenergic receptors. 2) Ca 2+ storage sites and the localization of the changes in intracellular Ca2+ that occur upon stimulation. A combination of methods will be used for this purpose, including x-ray microprobe analysis, quantitation of 35S-thio-IP3 binding, imaging with fluorescent probes and 45 Ca or ruthenium-red labeling of proteins in subcellular fractions. 3) The altered coupling between Ca2+ and monovalent ion transport. Cell Ca 2+ will be 'clamped' with ionomycin and the efflux of 86 Rb and 36Cl will be measured at different external Ca2+. Cell volume will be measured under these conditions using isotopic, imaging and light scattering methods and K channels will be evaluated with 125I charybdotoxin. Ion channels will also be studied by patch clamping. The x-ray microprobe analysis and the patch clamping will be done in collaboration with Profs. G. Roomans (University of Uppsala) and O.H. Petersen (University of Liverpool). Our working hypothesis is that immature salivary cells have differences in: a) the phospholipid/phospholipase complex or in their coupling to the acetylcholine receptor; and b) intracellular Ca 2+ pools, their localization or compartmentalization or Ca2+-regulated channels. The proposed studies should contribute to our understanding of the functional development of salivary glands and of how the signalling mechanism evolves during this process.

Agency
National Institute of Health (NIH)
Institute
National Institute of Dental & Craniofacial Research (NIDCR)
Type
Research Project (R01)
Project #
5R01DE004897-16
Application #
2129012
Study Section
Oral Biology and Medicine Subcommittee 1 (OBM)
Project Start
1988-08-01
Project End
1997-04-08
Budget Start
1995-04-09
Budget End
1996-04-08
Support Year
16
Fiscal Year
1995
Total Cost
Indirect Cost
Name
University of Texas Health Science Center San Antonio
Department
Pediatrics
Type
Schools of Medicine
DUNS #
800772162
City
San Antonio
State
TX
Country
United States
Zip Code
78229
Zhang, G H; Martinez, J R (1999) Effects of forksolin, dibutyryl cAMP and H89 on Ca2+ mobilization in submandibular salivary cells of newborn rats. Arch Oral Biol 44:735-44
Wells, J; Zhang, G H; Martinez, J R (1997) Comparison of calcium mobilization in response to noradrenaline and acetylcholine in submandibular cells of newborn and adult rats. Arch Oral Biol 42:633-40
Fatherazi, S; Izutsu, K T; Martinez, J R (1996) Absence of acetylcholine- and ionomycin-activated Cl- currents in submandibular cells of early postnatal rats. Pflugers Arch 433:116-22
Seagrave, J; Johnson, L J; Goodwin, L E et al. (1996) G-protein coupling of muscarinic receptors in adult and neonatal rat submandibular cells. J Cell Physiol 168:166-72
Zhang, G H; Wells, J; Willis, S et al. (1996) Evidence for reduced capacity for Ca2+ removal from the cytosol in submandibular cells of newborn rats. Biochem Biophys Res Commun 228:171-5
Seagrave, J C; Curry, M; Ramsey, R C et al. (1992) Intracellular pH changes induced by exposure to weak acids and bases in submandibular cells of early postnatal rats. Arch Oral Biol 37:699-703
Seagrave, J C; Barker, S; Curry, M et al. (1992) Effects of NH4Cl and dimethylamine on Cl- fluxes in resting and stimulated rat submandibular acinar cells. Am J Physiol 263:G558-65
Martinez, J R; Camden, J; Barker, S (1990) Effects of acetylcholine and monensin on 22Na uptake and cytosolic Ca2+ in rat submandibular salivary cells. Arch Oral Biol 35:359-64
Martinez, J R; Camden, J (1989) Ca2+ mobilization and Cl efflux in submandibular salivary cells of adult and newborn rats. Arch Oral Biol 34:147-52
Martinez, J R; Camden, J; Kingsbury, M B (1988) Effects of acetylcholine and transport inhibitors on K content in dispersed submandibular salivary cells of newborn and adult rats. Arch Oral Biol 33:203-7

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