Molecular Mechanism of Pancreatic and Salivary Gland Fluid and HCO<sub>3</sub><sup>−</sup>Secretion

Lee, Min Goo; Ohana, Ehud; Park, Hyun Woo; Yang, Dongki; Muallem, Shmuel

doi:10.1152/physrev.00011.2011

Cited by 343 publications

(489 citation statements)

References 481 publications

(776 reference statements)

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“…The Cl − dependency of IPR-induced fluid secretion is in agreement with the current model for saliva secretion; that is, the secretory machinery is composed of basolateral Cl − uptake and apical Cl − efflux pathways. In contrast, the HCO 3 − dependency suggests either that the basolateral Cl − uptake pathway depends markedly on HCO 3 − ions or that HCO 3 − secretion may be linked to fluid secretion. Future experiments are needed to acquire more insight into the mechanism by which HCO 3 − modulates IPR-induced salivary gland fluid secretion.…”

Section: Discussionmentioning

confidence: 91%

“…The major ion-transporting proteins involved in fluid secretion have been identified in exocrine glands (1,3). It was recently proposed in salivary glands that Tmem16A (4-6) encodes the apical Ca 2+ -activated Cl − channel (CaCC) efflux pathway required for Ca 2+ -dependent fluid secretion (6,7), whereas the molecular identity of the apical Cl − efflux pathway involved in β-adrenergic receptor-activated secretion is unknown.…”

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confidence: 99%

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A fluid secretion pathway unmasked by acinar-specific Tmem16A gene ablation in the adult mouse salivary gland

Catalán

Kondo

Peña-Münzenmayer

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

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Activation of an apical Ca 2+ -activated Cl − channel (CaCC) triggers the secretion of saliva. It was previously demonstrated that CaCCmediated Cl − current and Cl − efflux are absent in the acinar cells of systemic Tmem16A (Tmem16A Cl − channel) null mice, but salivation was not assessed in fully developed glands because Tmem16A null mice die within a few days after birth. To test the role of Tmem16A in adult salivary glands, we generated conditional knockout mice lacking Tmem16A in acinar cells (Tmem16A −/− ). Ca 2+ -dependent salivation was abolished in Tmem16A −/− mice, demonstrating that Tmem16A is obligatory for Ca 2+ -mediated fluid secretion. However, the amount of saliva secreted by Tmem16A −/− mice in response to the β-adrenergic receptor agonist isoproterenol (IPR) was comparable to that seen in controls, indicating that Tmem16A does not significantly contribute to cAMP-induced secretion. Furthermore, IPR-stimulated secretion was unaffected in mice lacking Cftr (Cftr ΔF508/ΔF508 ) or ClC-2 (Clcn2 −/− ) Cl − channels. The time course for activation of IPR-stimulated fluid secretion closely correlated with that of the IPR-induced cell volume increase, suggesting that acinar swelling may activate a volume-sensitive Cl − channel. Indeed, Cl − channel blockers abolished fluid secretion, indicating that Cl − channel activity is critical for IPR-stimulated secretion. These data suggest that β-adrenergic-induced, cAMP-dependent fluid secretion involves a volume-regulated anion channel. In summary, our results using acinar-specific Tmem16A −/− mice identify Tmem16A as the Cl − channel essential for muscarinic, Ca 2+ -dependent fluid secretion in adult mouse salivary glands.acinar cell | secretion | Cl − channel | Tmem16A/Ano1 | Cftr channel

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Section: Discussionmentioning

confidence: 91%

mentioning

confidence: 99%

A fluid secretion pathway unmasked by acinar-specific Tmem16A gene ablation in the adult mouse salivary gland

Catalán

Kondo

Peña-Münzenmayer

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

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“…Initiation of fluid secretion in the salivary gland requires movement of water and ions through their respective channels in the acinar cells (reviewed in ref. 17). AQP5 is the main water channel for salivary fluid secretion (reviewed in ref.…”

Section: Resultsmentioning

confidence: 99%

Aquaporin gene therapy corrects Sjögren’s syndrome phenotype in mice

Lai

Yin

Cabrera-Pérez

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

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Primary Sjögren’s syndrome (pSS) is a chronic autoimmune disease that is estimated to affect 35 million people worldwide. Currently, no effective treatments exist for Sjögren’s syndrome, and there is a limited understanding of the physiological mechanisms associated with xerostomia and hyposalivation. The present work revealed that aquaporin 5 expression, a water channel critical for salivary gland fluid secretion, is regulated by bone morphogenetic protein 6. Increased expression of this cytokine is strongly associated with the most common symptom of primary Sjögren’s syndrome, the loss of salivary gland function. This finding led us to develop a therapy in the treatment of Sjögren’s syndrome by increasing the water permeability of the gland to restore saliva flow. Our study demonstrates that the targeted increase of gland permeability not only resulted in the restoration of secretory gland function but also resolved the hallmark salivary gland inflammation and systemic inflammation associated with disease. Secretory function also increased in the lacrimal gland, suggesting this local therapy could treat the systemic symptoms associated with primary Sjögren’s syndrome.

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“…4 Slc26a6 is expressed at high levels in most epithelia, including the proximal intestine, renal proximal tubule, salivary glands, and pancreas. 5 Slc26a6 functions as a 1Cl 2 /2HCO 3 6 or 1Cl 2 /1oxalate and 1Cl 2 /1for-mate exchanger. 7 Its pivotal role in oxalate homeostasis was demonstrated in slc26a6 2/2 mice, where the most prominent phenotype is increased serum and urine oxalate that lead to Ca 2+ -oxalate kidney stones.…”

mentioning

confidence: 99%

SLC26A6 and NaDC-1 Transporters Interact to Regulate Oxalate and Citrate Homeostasis

Ohana

Shcheynikov

Moe

et al. 2013

Journal of the American Society of Nephrology

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The combination of hyperoxaluria and hypocitraturia can trigger Ca 2+ -oxalate stone formation, even in the absence of hypercalciuria, but the molecular mechanisms that control urinary oxalate and citrate levels are not understood completely. Here, we examined the relationship between the oxalate transporter SLC26A6 and the citrate transporter NaDC-1 in citrate and oxalate homeostasis. Compared with wildtype mice, Slc26a6-null mice exhibited increased renal and intestinal sodium-dependent succinate uptake, as well as urinary hyperoxaluria and hypocitraturia, but no change in urinary pH, indicating enhanced transport activity of NaDC-1. When co-expressed in Xenopus oocytes, NaDC-1 enhanced Slc26a6 transport activity. In contrast, Slc26a6 inhibited NaDC-1 transport activity in an activity dependent manner to restricted tubular citrate absorption. Biochemical and physiologic analysis revealed that the STAS domain of Slc26a6 and the first intracellular loop of NaDC-1 mediated both the physical and functional interactions of these transporters. These findings reveal a molecular pathway that senses and tightly regulates oxalate and citrate levels and may control Ca 2+-oxalate stone formation.

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Molecular Mechanism of Pancreatic and Salivary Gland Fluid and HCO₃⁻Secretion

Cited by 343 publications

References 481 publications

A fluid secretion pathway unmasked by acinar-specific Tmem16A gene ablation in the adult mouse salivary gland

A fluid secretion pathway unmasked by acinar-specific Tmem16A gene ablation in the adult mouse salivary gland

Aquaporin gene therapy corrects Sjögren’s syndrome phenotype in mice

SLC26A6 and NaDC-1 Transporters Interact to Regulate Oxalate and Citrate Homeostasis

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Molecular Mechanism of Pancreatic and Salivary Gland Fluid and HCO3−Secretion

Cited by 343 publications

References 481 publications

A fluid secretion pathway unmasked by acinar-specific Tmem16A gene ablation in the adult mouse salivary gland

A fluid secretion pathway unmasked by acinar-specific Tmem16A gene ablation in the adult mouse salivary gland

Aquaporin gene therapy corrects Sjögren’s syndrome phenotype in mice

SLC26A6 and NaDC-1 Transporters Interact to Regulate Oxalate and Citrate Homeostasis

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Molecular Mechanism of Pancreatic and Salivary Gland Fluid and HCO₃⁻Secretion