1. Functional and molecular characterization of transmembrane intracellular pH regulators in human dental pulp stem cells
- Author
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Shu-Fu Huang, Shih-Hurng Loh, Chung-Yi Chang, Gwo-Jang Wu, Shiao-Pieng Lee, Chung-Hsing Li, Gunng-Shinng Chen, and Shih-Chi Chao
- Subjects
0301 basic medicine ,Cytoplasm ,Alkalosis ,Sodium-Hydrogen Exchangers ,Intracellular pH ,Apoptosis ,Ion Pumps ,Acid-Base Imbalance ,Buffers ,Guanidines ,Ammonium Chloride ,Antiporters ,03 medical and health sciences ,chemistry.chemical_compound ,0302 clinical medicine ,Western blot ,Dental pulp stem cells ,medicine ,Homeostasis ,Humans ,Protein Isoforms ,Sulfones ,Neoplasm Metastasis ,General Dentistry ,Dental Pulp ,Acidosis ,Cell Proliferation ,Acid-Base Equilibrium ,Sodium-Hydrogen Exchanger 1 ,medicine.diagnostic_test ,Chemistry ,Sodium-Bicarbonate Symporters ,Stem Cells ,Sodium ,Cell Differentiation ,Cell Biology ,General Medicine ,Hydrogen-Ion Concentration ,medicine.disease ,Molecular biology ,Sodium–hydrogen antiporter ,030104 developmental biology ,Otorhinolaryngology ,DIDS ,medicine.symptom ,Acids ,030217 neurology & neurosurgery - Abstract
Objective Homeostasis of intracellular pH (pHi) plays vital roles in many cell functions, such as proliferation, apoptosis, differentiation and metastasis. Thus far, Na+-H+ exchanger (NHE), Na+-HCO3− co-transporter (NBC), Cl−/HCO3− exchanger (AE) and Cl−/OH− exchanger (CHE) have been identified to co-regulate pHi homeostasis. However, functional and biological pHi-regulators in human dental pulp stem cells (hDPSCs) have yet to be identified. Design Microspectrofluorimetry technique with pH-sensitive fluorescent dye, BCECF, was used to detect pHi changes. NH4Cl and Na+-acetate pre-pulse were used to induce intracellular acidosis and alkalosis, respectively. Isoforms of pHi-regulators were detected by Western blot technique. Results The resting pHi was no significant difference between that in HEPES-buffered (nominal HCO3−-free) solution or CO2/HCO3-buffered system (7.42 and 7.46, respectively). The pHi recovery following the induced-intracellular acidosis was blocked completely by removing [Na+]o, while only slowed (−63%) by adding HOE694 (a NHE1 specific inhibitor) in HEPES-buffered solution. The pHi recovery was inhibited entirely by removing [Na+]o, while adding HOE 694 pulse DIDS (an anion-transporter inhibitor) only slowed (−55%) the acid extrusion. Both in HEPES-buffered and CO2/HCO3-buffered system solution, the pHi recovery after induced-intracellular alkalosis was entirely blocked by removing [Cl−]o. Western blot analysis showed the isoforms of pHi regulators, including NHE1/2, NBCe1/n1, AE1/2/3/4 and CHE in the hDPSCs. Conclusions We demonstrate for the first time that resting pHi is significantly higher than 7.2 and meditates functionally by two Na+-dependent acid extruders (NHE and NBC), two Cl−-dependent acid loaders (CHE and AE) and one Na+-independent acid extruder(s) in hDPSCs. These findings provide novel insight for basic and clinical treatment of dentistry.
- Published
- 2017