References
- Humphreys-Beher MG. Animal models for autoimmune disease-associated xerostomia and xerophthalmia. Adv Dent Res. 1996;10:73–75.
- Robinson CP, Yamachika S, Bounous DI, Brayer J, Jonsson R, Holmdahl R, Peck AB, Humphreys-Beher MG. A novel NOD-derived murine model of primary Sjögren's syn-drome. Arth & Rheum. 1998;41:150–156.
- Kessler HS. A laboratory model of Sjögren's syndrome. Amer J Path. 1968;52:671–678.
- Jabs DA, Alexander EL, Green WR. Ocular inflammation in autoimmune MRL/Mp mice. Invest Ophthalmol Vis Sci. 1985;26:1223–1229.
- Jabs DA, Enger C, Prendergast RA. Murine models of Sjögren's syndrome. Evolution of the lacrimal gland inflammatory lesions. Invest Ophthalmol Vis Sci. 1991;32:371–380.
- Dawson L, Field E, Harmer A, Smith P. Acetylcholine-evoked calcium mobilization and ion channel activation in human labial gland acinar cells from patients with primary Sjögren's syndrome. Clin Expt ImmunoL 2001;124:480–485.
- Kessler HS, Cubberly M, Manski W. Eye changes in autoimmune NZB and NZB x NZW mice. Comparison with Sjögren's syndrome. Arch Ophthalmol. 1971;85:211–219.
- Jabs DA, Prendergast RA. Murine models of Sjögren's syndrome. Immunohistologic analysis of different strains. Invest Ophthalmol Vis Sci. 1988;29:1437–1443.
- Paranyuk Y, Claros N, Birzgalis A, Moore L, Brink P, Walcott B. Lacrimal gland fluid secretion and lymphocytic infiltration in the NZB/W mouse model of Sjögren's syn-drome. Curr Eye Res. 2001;23:199–205.
- Putney JW, VandeWalle C, Leslie BA. Stimulus-secretion coupling in the rat lacrimal gland. Amer J PhysioL 1978;235:C188–C198.
- Gromada J, Jorgensen TD, Dissing S. The release of intracellular Ca' in lacrimal acinar cells by alpha-, beta-adrenergic and muscarinic cholinergic stimulation: The roles of inositol triphosphate and cyclic ADP-ribose. Pflugers Archiv - European J PhysioL 1995;429:751–761.
- Marty A, Tan YP, Trautmarm A. Three types of Calcium-dependent channel in rat lacrimal glands. J PhysioL 1984; 357:293–325.
- Tan YP, Marty A, Trautmann A. High density of Ca2+- dependent IC andchannels on the luminal membrane of lacrimal acinar cells. PNAS. 1992;89: 11229–11233.
- Hann LE, Tatro JB, Sullivan DA. Morphology and function of lacrimal gland acinar cells in primary culture. Invest Ophthalmol Vis Sci. 1989;30:145–158.
- Heidelberger R, Matthews G. Calcium influx and calcium current in single synaptic terminals of goldfish retinal bipolar neurons. J PhysioL 1992;447:235–256.
- Fan J, Palade P Perforated patch recording with beta-escin. Pflikers Archiv - European J PhysioL 1998;436:1021–1023.
- Putney JW, Jr., Huang Y, Bird GS. Calcium signaling in lacrimal acinar cells. In: Sullivan DA, ed. The Lacrimal Gland, Tear Film and Dry Eye Syndromes: Basic Science and Clinical Relevance. Adv Expt Med Biol. 1998;438: 123–128.
- Gromada J, Jorgensen TD, Dissing S. Cyclic ADP-ribose and inositol 1,4,5-triphosphate mobilizes Ca2+ from distinct intracellular pools in permeabilized lacrimal acinar cells. FEBS Letters. 1995;360: 303–306.
- Bird GJ, Obie JF, Putney JW, Jr. Functional homogeneity of the non-mitochondrial Ca2+ pool in intact mouse lacrimal acinar cells. J Bio Chem. 1992;267:18382–18386.
- Putney JW, Jr., Bird GS. The inositol phosphate-calcium signalling system in lacrimal gland cells. In: Sullivan DA, ed. The Lacrimal Gland, Tear Film and Dry Eye Syn-dromes: Basic Science and Clinical Relevance. Adv Expt Med Bio. 1994;350:115–119.
- Marty A, Evans MG, Tan YP, Trautmann A. Muscarinic response in rat lacrimal glands. J Expt Bio. 1986;124:15–32.
- Mauduit P, Jammes H, Rossignol B. M3 muscarinic acetyl-choline receptor coupling to PLC in rat exorbital lacrimal acinar cells. Amer J PhysioL 1993;264:C1550–C1560.
- Dartt DA. Signal transduction and control of lacrimal gland protein secretion: A review. Current Eye Res. 1989;8:619–636.
- Hodges RR, Dicker DM, Rose PE, Dartt DA. al-Adrenergic and cholinergic agonists use separate signal transduction pathways in lacrimal gland. Amer J PhysioL 1992;262:G1087–G1096.
- Thörig L, van Haeringen NJ, Timmermans PBMWM, van Swieten PA. Alpha-adrenergic control of peroxidase secre-tion from rat lacrimal gland cells in vitro. Expt Eye Res. 1982;35:29–41.
- Satoh Y, Sano K, Habara Y, Kanno T. Effects of carbachol and catecholamines on ultrastructure and intracellular calcium-ion dynamics of acinar and myoepithelial cells of lacrimal glands. Cell & Tissue Res. 1997;289:473–485.
- Keyes GG, Vickers RA, Kersey JH. Immunopathology of Sjögren's-like disease in NZB/NZW mice. J Oral Path. 1977;6:288–295.
- Marty A, Tan YP. The initiation of calcium release follow-ing muscarinic stimulation in rat lacrimal glands. J PhysioL 1989;419:665–687.
- Speake T, Douglas IJ, Brown PD. The role of calcium in the volume regulation of rat lacrimal acinar cells. J Memb Bio. 1998;164:283–291.
- Lewis RS, Cahalan MD. Potassium and calcium channels in lymphocytes. Ann Rev ImmunoL 1995;13:623–653.
- Evans MG, Marty A. Calcium-dependent chloride currents in isolated cells from rat lacrimal glands. J PhysioL 1986;378:437–460.
- Petersen OH. Calcium-activated potassium channels and fluid secretion by exocrine glands. Amer J PhysioL 1986;251:G1–G13.