[Arciszewski M.B., Ekblad E. (2005). Effects of vasoactive intestinal peptide and galanin on survival of cultured porcine myenteric neurons. Regul. Pept., 125: 185–192.]Search in Google Scholar
[Arciszewski M.B., Stefaniak M., Zacharko-Siembida A., Calka J. (2011). Aquaporin 1 water channel is expressed on submucosal but not myenteric neurons from the ovine duodenum. Ann. Anat., 193: 81–85.]Search in Google Scholar
[Binder D.K., Yao X., Zador Z., Sick T.J., Verkman A.S., Manley G.T. (2006). Increased seizure duration and slowed potassium kinetics in mice lacking aquaporin-4 water channels. Glia, 53: 631–636.]Search in Google Scholar
[Bondurand N., Southard-Smith E.M. (2016). Mouse models of Hirschsprung disease and other developmental disorders of the enteric nervous system: Old and new players. Dev. Biol., 417: 139–157.]Search in Google Scholar
[Brehmer A., Rupprecht H., Neuhuber W. (2010). Two submucosal nerve plexus in human intestines. Histochem. Cell Biol., 133: 149–161.]Search in Google Scholar
[Coelho-Aguiar Jde M., Bon-Frauches A.C., Gomes A.L., Veríssimo C.P., Aguiar D.P., Matias D., Thomasi B.B., Gomes A.S., Brito G.A., Moura-Neto V. (2015). The enteric glia: identity and functions. Glia, 63: 921–935.]Search in Google Scholar
[De Luca A., Vassalotti G., Pelagalli A., Pero M.E., Squillacioti C., Mirabella N., Lombardi P., Avallone L. (2015). Expression and localization of aquaporin-1 along the intestine of colostrum suckling buffalo calves. Anat. Histol. Embryol., 44: 391–400.]Search in Google Scholar
[Delporte C. (2017). Aquaporins and gland secretion. Adv. Exp. Med. Biol., 969: 63–79.]Search in Google Scholar
[Furness J.B., Callaghan B.P., Rivera L.R., Cho H.J. (2014). The enteric nervous system and gastrointestinal innervation: Integrated local and central control. Adv. Exp. Med. Biol., 817: 39–71.]Search in Google Scholar
[Gao H., He C., Fang X., Hou X., Feng X., Yang H., Zhao X., Ma T. (2006). Localization of aquaporin-1 water channel in glial cells of the human peripheral nervous system. Glia, 53: 783–787.]Search in Google Scholar
[Gulbransen B.D., Sharkey K.A. (2012). Novel functional roles for enteric glia in the gastrointestinal tract. Nat. Rev. Gastroenterol. Hepatol., 9: 625–632.]Search in Google Scholar
[Guo C., Wu T., Zhu H., Gao L. (2019). Aquaporin 4 blockade attenuates acute lung injury through inhibition of Th17 cell proliferation in mice. Inflammation, 42: 1401–1412.]Search in Google Scholar
[Ikeshima-Kataoka H. (2016). Neuroimmunological implications of AQP4 in astrocytes. Int. J. Mol. Sci., 17: 1306.]Search in Google Scholar
[Ishihara E., Nagahama M., Naruse S., Semba R., Miura T., Usami M., Narita M. (2008). Neuropathological alteration of aquaporin 1 immunoreactive enteric neurons in the streptozotocin-induced diabetic rats. Auton. Neurosci., 138: 31–40.]Search in Google Scholar
[Jiang L., Li J., Liu X., Burnstock G., Xiang Z. (2014). Expression of aquaporin-4 water channels in the digestive tract of the guinea pig. J. Mol. Histol., 45: 229–241.]Search in Google Scholar
[Kandilis A.N., Papadopoulou I.P., Koskinas J., Sotiropoulos G., Tiniakos D.G. (2015). Liver innervation and hepatic function: new insights. J. Surg. Res., 194: 511–519.]Search in Google Scholar
[Kato J., Takai Y., Hayashi M.K., Kato Y., Tanaka M., Sohma Y., Abe Y., Yasui M. (2014). Expression and localization of aquaporin-4 in sensory ganglia. Biochem. Biophys. Res. Commun., 451: 562–567.]Search in Google Scholar
[Kim J.H., Kim S.S., Kim Y.I., Jung S.Y., Kim S.H., Yeo S.G. (2019). Decreased aquaporin 4 and 6 mRNAs in patients with chronic otitis media with otorrhea. Clin. Exp. Otorhinolaryngol., 12: 267–272.]Search in Google Scholar
[Kitchen P., Salman M.M., Halsey A.M., Clarke-Bland C., Mac Donald J.A., Ishida H., Vogel H.J., Almutiri S., Logan A., Kreida S., Al-Jubair T., Winkel Missel J., Gourdon P., Törnroth-Horsefield S., Conner M.T., Ahmed Z., Conner A.C., Bill R.M. (2020). Targeting aquaporin-4 subcellular localization to treat central nervous system edema. Cell., 181: 784–799.]Search in Google Scholar
[Kon R., Tsubota Y., Minami M., Kato S., Matsunaga Y., Kimura H., Murakami Y., Fujikawa T., Sakurai R., Tomimoto R., Machida Y., Ikarashi N., Sugiyama K. (2018). CPT-11-induced delayed diarrhea develops via reduced aquaporin-3 expression in the colon. Int. J. Mol. Sci., 19: 170.]Search in Google Scholar
[Laforenza U., Bottino C., Gastaldi G. (2016). Mammalian aquaglyceroporin function in metabolism. Biochim. Biophys. Acta., 1858: 1–11.]Search in Google Scholar
[Lan Y.L., Zhao J., Ma T., Li S. (2016). The potential roles of aquaporin 4 in Alzheimer’s disease. Mol. Neurobiol., 53: 5300–5309.]Search in Google Scholar
[Li C., Wang W. (2017). Molecular biology of aquaporins. Adv. Exp. Med. Biol., 969: 1–34.]Search in Google Scholar
[Li L., Zhang H., Varrin-Doyer M., Zamvil S.S., Verkman A.S. (2011). Proinflammatory role of aquaporin-4 in autoimmune neuroinflammation. FASEB J., 25: 1556–1566.]Search in Google Scholar
[Ma T., Gao H., Fang X., Yang H. (2012). Water channel proteins in the peripheral nervous system in health and disease. Mol. Aspects. Med., 33: 605–611.]Search in Google Scholar
[Makowska K., Gonkowski S. (2019). Age and sex-dependent differences in the neurochemical characterization of calcitonin gene-related peptide-like immunoreactive (CGRP-LI) nervous structures in the porcine descending colon. Int. J. Mol. Sci., 20: 1024.]Search in Google Scholar
[Matsuzaki K., Sugimoto N., Katakura M., Sumiyoshi E., Hara T., Hashimoto M., Shido O. (2017). Daily voluntary exercise enhances pilocarpine-induced saliva secretion and aquaporin 1 expression in rat submandibular glands. FEBS Open Bio., 8: 85–93.]Search in Google Scholar
[Meli R., Pirozzi C., Pelagalli A. (2018). New perspectives on the potential role of aquaporins (AQPs) in the physiology of inflammation. Front. Physiol., 9: 101.]Search in Google Scholar
[Nagahama M., Ma N., Semba R., Naruse S. (2006). Aquaporin 1 immunoreactive enteric neurons in the rat ileum. Neurosci. Lett., 395: 206–210.]Search in Google Scholar
[Oshio K., Watanabe H., Yan D., Verkman A.S., Manley G.T. (2006). Impaired pain sensation in mice lacking aquaporin-1 water channels. Biochem. Biophys. Res. Commun., 341: 1022–1028.]Search in Google Scholar
[Palus K., Bulc M., Calka J. (2017). Changes in somatostatin-like immunoreactivity in the sympathetic neurons projecting to the prepyloric area of the porcine stomach induced by selected pathological conditions. BioMed. Res. Int., 2017: 9037476.]Search in Google Scholar
[Papadopoulos M.C., Verkman A.S. (2005). Aquaporin-4 gene disruption in mice reduces brain swelling and mortality in pneumococcal meningitis. J. Biol. Chem., 280: 13906–13912.]Search in Google Scholar
[Papadopoulos M.C., Verkman A.S. (2013). Aquaporin water channels in the nervous system. Nat. Rev. Neurosci., 14: 265–277.]Search in Google Scholar
[Park J., Madan M., Chigurupati S., Baek S.H., Cho Y., Mughal M.R., Yu A., Chan S.L., Pattisapu J.V., Mattson M.P., Jo D.G. (2020). Neuronal aquaporin 1 inhibits amyloidogenesis by suppressing the interaction between beta-secretase and amyloid precursor protein. J. Gerontol. A, 76: 23–31.]Search in Google Scholar
[Patel R., Kevin Heard L., Chen X., Bollag W.B. (2017). Aquaporins in the skin. Adv. Exp. Med. Biol., 969: 173–191.]Search in Google Scholar
[Pelagalli A., Squillacioti C., De Luca A., Pero M.E., Vassalotti G., Lombardi P., Avallone L., Mirabella N. (2016). Expression and localization of aquaporin 4 and aquaporin 5 along the large intestine of colostrum-suckling buffalo calves. Anat. Histol. Embryol., 45: 418–427.]Search in Google Scholar
[Pelagalli A., Nardelli A., Lucarelli E., Zannetti A., Brunetti A. (2018). Autocrine signals increase ovine mesenchymal stem cells migration through aquaporin-1 and CXCR4 overexpression. J. Cell. Physiol., 233: 6241–6249.]Search in Google Scholar
[Pini N., Pfeifle V.A., Kym U., Keck S., Galati V., Holland-Cunz S., Gros S.J. (2017). Water permeability is a measure of severity in acute appendicitis. J. Enzyme. Inhib. Med. Chem., 32: 1036–1041.]Search in Google Scholar
[Rosu G.C., Pirici I., Grigorie A.A., Istrate-Ofiteru A.M., Iovan L., Tudorica V., Pirici D. (2019). Distribution of aquaporins 1 and 4 in the central nervous system. Curr. Health. Sci. J., 45: 218–226.]Search in Google Scholar
[Rytel L., Całka J. (2016). Neuropeptide profile changes in sensory neurons after partial prepyloric resection in pigs. Ann. Anat., 206: 48–56.]Search in Google Scholar
[Saadoun S., Papadopoulos M.C., Watanabe H., Yan D., Manley G.T., Verkman A.S. (2005). Involvement of aquaporin-4 in astroglial cell migration and glial scar formation. J. Cell. Sci., 118: 5691–5698.]Search in Google Scholar
[Schneider S., Wright C.M., Heuckeroth R.O. (2019). Unexpected roles for the second brain: Enteric nervous system as master regulator of bowel function. Annu. Rev. Physiol., 81: 235–259.]Search in Google Scholar
[Shimizu Y., Matsuyama H., Shiina T., Takewaki T., Furness J.B. (2008). Tachykinins and their functions in the gastrointestinal tract. Cell. Mol. Life Sci., 65: 295–311.]Search in Google Scholar
[Skowronska A., Tanski D., Jaskiewicz L., Skowronski M.T. (2020). Modulation by steroid hormones and other factors on the expression of aquaporin-1 and aquaporin-5. Vitam. Horm., 112: 209–242.]Search in Google Scholar
[Squillacioti C., De Luca A., Pero M.E., Vassalotti G., Lombardi P., Avallone L., Mirabella N., Pelagalli A. (2015). Effect of colostrum and milk on small intestine expression of AQP4 and AQP5 in newborn buffalo calves. Res. Vet. Sci., 103: 149–155.]Search in Google Scholar
[Szpilbarg N., Castro-Parodi M., Reppetti J., Repetto M., Maskin B., Martinez N., Damiano A.E. (2016). Placental programmed cell death: insights into the role of aquaporins. Mol. Hum. Reprod., 22: 46–56.]Search in Google Scholar
[Tamtaji O.R., Behnam M., Pourattar M.A., Jafarpour H., Asemi Z. (2019). Aquaporin 4: A key player in Parkinson’s disease. J. Cell. Physiol., 234: 21471–21478.]Search in Google Scholar
[Tanski D., Skowronska A., Eliszewski M., Gromadzinski L., Kempisty B., Skowronski M.T. (2020). Changes in aquaporin 1, 5 and 9 gene expression in the porcine oviduct according to estrous cycle and early pregnancy. Int. J. Mol. Sci., 21: 2777.]Search in Google Scholar
[Thi M.M., Spray D.C., Hanani M. (2008). Aquaporin-4 water channels in enteric neurons. J. Neurosci. Res., 86: 448–456.]Search in Google Scholar
[Tie L., Wang D., Shi Y., Li X. (2017). Aquaporins in cardiovascular system. Adv. Exp. Med. Biol., 969: 105–113.]Search in Google Scholar
[Trillo-Contreras J.L., Toledo-Aral J.J., Echevarría M., Villadiego J. (2019). AQP1 and AQP4 contribution to cerebrospinal fluid homeostasis. Cells., 8: 197.]Search in Google Scholar
[Wang L., Tang H., Wang C., Hu Y., Wang S., Shen L. (2019). Aquaporin 4 deficiency alleviates experimental colitis in mice. FASEB J., 33: 8935–8944.]Search in Google Scholar
[Wang C., Wu Q., Wang Z., Hu L., Marshall C., Xiao M. (2020). Aquaporin 4 knockout increases complete Freund’s adjuvant-induced spinal central sensitization. Brain. Res. Bull., 156: 58–66.]Search in Google Scholar
[Xiang T., Ge S., Wen J., Xie J., Yang L., Wu X., Cheng N. (2018). The possible association between AQP9 in the intestinal epithelium and acute liver injury induced intestinal epithelium damage. Mol. Med. Rep., 18: 4987–4993.]Search in Google Scholar
[Xu M., Xiao M., Li S., Yang B. (2017). Aquaporins in nervous system. Adv. Exp. Med. Biol., 969: 81–103.]Search in Google Scholar
[Yasumitsu T., Shimizu O., Shiratsuchi H., Miyake Y., Yonehara Y. (2018). Distribution of aquaporin-5, transforming growth factor-β1 and laminin during regeneration of atrophic rat submandibular glands after duct ligation. J. Oral. Sci., 60: 595–600.]Search in Google Scholar
[Yoshimura K., Sugiura K., Ohmori Y., Aste N., Saito N. (2011). Immunolocalization of aquaporin-4 in the brain, kidney, skeletal muscle, and gastro-intestinal tract of chicken. Cell. Tissue. Res., 344: 51–61.]Search in Google Scholar
[Zhang H., Verkman A.S. (2010). Aquaporin-1 tunes pain perception by interaction with Na(v)1.8 Na+ channels in dorsal root ganglion neurons. J. Biol. Chem., 285: 5896–5906.]Search in Google Scholar
[Zhang W., Xu Y., Chen Z., Xu Z., Xu H. (2011). Knockdown of aquaporin 3 is involved in intestinal barrier integrity impairment. FEBS Lett., 585: 3113–3119.]Search in Google Scholar
[Zhang J., Li S., Deng F., Baikeli B., Yu W., Liu G. (2019). Distribution of aquaporins and sodium transporters in the gastrointestinal tract of a desert hare, Lepus yarkandensis. Sci. Rep., 9: 16639.]Search in Google Scholar
[Zhu C., Chen Z., Jiang Z. (2016). Expression, distribution and role of aquaporin water channels in human and animal stomach and intestines. Int. J. Mol. Sci., 17: 1399.]Search in Google Scholar
[Zhu S., Ran J., Yang B., Mei Z. (2017). Aquaporins in digestive system. Adv. Exp. Med. Biol., 969: 123–130.]Search in Google Scholar
[Zhu Y., Wang Y., Teng W., Shan Y., Yi S., Zhu S., Li Y. (2019). Role of aquaporin-3 in intestinal injury induced by sepsis. Biol. Pharm. Bull., 42: 1641–1650.]Search in Google Scholar
