De Novo Expression of Sodium-Glucose Cotransporter SGLT2 in Bowman’s Capsule Coincides with Replacement of Parietal Epithelial Cell Layer with Proximal Tubule-like Epithelium
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- 作者:Niloofar M. Tabatabai (1)
Paula E. North (3)
Kevin R. Regner (2)
Suresh N. Kumar (3)
Christine B. Duris (3)
Amy B. Blodgett (1) - 关键词:SGLT2 ; Proximal tubule ; Bowman’s capsule ; Parietal epithelial cells ; Brush border membrane ; Glomerulotubular junction
- 刊名:Journal of Membrane Biology
- 出版年:2014
- 出版时间:August 2014
- 年:2014
- 卷:247
- 期:8
- 页码:675-683
- 全文大小:3,259 KB
- 参考文献:1. Abdul-Ghani MA, Defronzo RA, Norton L (2013) Novel hypothesis to explain why SGLT2 inhibitors inhibit only 30-50% of filtered glucose load in humans. Diabetes 62(10):3324-328 CrossRef
2. Ahmadizadeh M, Echt R, Kuo CH, Hook JB (1984) Sex and strain differences in mouse kidney: Bowman’s capsule morphology and susceptibility to chloroform. Toxicol Lett 20(2):161-71 CrossRef
3. Bakris GL, Fonseca VA, Sharma K, Wright EM (2009) Renal sodium-glucose transport: role in diabetes mellitus and potential clinical implications. Kidney Int 75(12):1272-277 CrossRef
4. Basivireddy J, Balasubramanian KA (2003) A simple method of rat renal brush border membrane preparation using polyethylene glycol precipitation. Int J Biochem Cell Biol 35(8):1248-255 CrossRef
5. Bays H (2013) Sodium Glucose Co-transporter Type 2 (SGLT2) inhibitors: targeting the kidney to improve glycemic control in diabetes mellitus. Diabetes Ther 4(2):195-20 CrossRef
6. Blodgett AB, Kothinti RK, Kamyshko I, Petering DH, Kumar S, Tabatabai NM (2011) A fluorescence method for measurement of glucose transport in kidney cells. Diabetes Technol Ther 13(7):743-51 CrossRef
7. Briere N, Petitclerc C, Plante G (1983) Presence of alkaline phosphatase and gamma-glutamyl transpeptidase on the parietal layer of Bowman’s capsule. Acta Histochem 73:237-41 CrossRef
8. Crabtree C (1940) Sex differences in the structure of Bowman’s capsule in the mouse. Science 91(2360):299 CrossRef
9. Dietert SC (1967) The columnar cells occurring in the parietal layer of Bowman’s capsule. Cellular fine structure and protein transport. J Cell Biol 35(2):435-44 CrossRef
10. Finckh ES, Joske RA (1954) The occurrence of columnar epithelium in Bowman’s capsule. J Pathol Bacteriol 68(2):646-48 CrossRef
11. Gilbert R.E. (2013) Sodium-glucose linked transporter-2 inhibitors: potential for renoprotection beyond blood glucose lowering? Kidney Int
12. Hutt MS, Pinniger JL, De Wardener HE (1958) The relationship between the clinical and the histological features of acute glomerular nephritis. Q J Med 27(2):265-91
13. Jakowski RM (1982) Renal tubular epithelium lining parietal layer of Bowman’s capsule in adult Long-Evans rats. Vet Pathol Online 19(2):212-15 CrossRef
14. Kothinti RK, Blodgett AB, North PE, Roman RJ, Tabatabai NM (2012) A novel SGLT is expressed in the human kidney. Eur J Pharmacol 690(1):77-3 CrossRef
15. Lee YW (2013) Clinical and genetic analysis in a patient with primary renal glucosuria: identification of a novel mutation in the gene. Exp Ther Med 6(6):1532-534
16. Lee SJ, Sparke J, Howie AJ (1993) The mammalian glomerulotubular junction studied by scanning and transmission electron microscopy. J Anat 182(Pt 2):177-85
17. Lee H, Han KH, Park HW, Shin JI, Kim CJ, Namgung MK, Kim KH, Koo JW, Chung WY, Lee DY, Kim SY, Cheong HI (2012) Familial renal glucosuria: a clinicogenetic study of 23 additional cases. Pediatr Nephrol 27(7):1091-095 CrossRef
18. Lindop GB, Gibson IW, Downie TT, Vass D, Cohen EP (2002) The glomerulo-tubular junction: a target in renal diseases. J Pathol 197(1):1- CrossRef
19. Nielsen S, Kwon T, Fenton RA, Praetorious J (2012) Anatomy of the kidney. In: Taal MW, Chertow GM, Marsden PA, Skorecki K, Yu ASL, Brenner BM (eds) Brenner and Rector’s the Kidney, 9th edn. Elsevier/Saunders, Philadelphia, PA, pp 31-3 CrossRef
20. Rieg T, Masuda T, Gerasimova M, Mayoux E, Platt KA, Powell DR, Thomson SC, Koepsell H, Vallon V (2013) Increase in SGLT1-mediated transport explains renal glucose reabsorption during genetic and pharmacologic SGLT2 inhibition in euglycemia. Am J Physiol Renal Physiol 306(2):F188–F193 CrossRef
21. Rosenheim ML (1953) Type 2 nephritis relapsing thirty years after onset, with two full-term pregnancies occurring during the course of the disease. Proc R Soc Med 46:715-16
22. Sabolic I, Vrhovac I, Eror DB, Gerasimova M, Rose M, Breljak D, Ljubojevic M, Brzica H, Sebastiani A, Thal SC, Sauvant C, Kipp H, Vallon V, Koepsell H (2012) Expression of Na+-d -glucose cotransporter SGLT2 in rodents is kidney-specific and exhibits sex and species differences. Am J Physiol Cell Physiol 302(8):C1174–C1188 CrossRef
23. Santer R, Calado J (2010) Familial renal glucosuria and SGLT2: from a mendelian trait to a therapeutic target. Clin J Am Soc Nephrol 5(1):133-41 CrossRef
24. Solberg Woods LC, Stelloh C, Regner KR, Schwabe T, Eisenhauer J, Garrett MR (2010) Heterogeneous stock rats: a new model to study the genetics of renal phenotypes. Am J Physiol Renal Physiol 298(6):F1484–F1491 CrossRef
25. Solez K, Morel-Maroger L, Sraer JD (1979) The morphology of “acute tubular necrosis-in man: analysis of 57 renal biopsies and a comparison with the glycerol model. Medicine 58(5):362-76 CrossRef
26. Tabatabai NM, Blumenthal SS, Lewand DL, Petering DH (2003) Mouse kidney expresses mRNA of four highly related sodium-glucose cotransporters: regulation by cadmium. Kidney Int 64(4):1320-330 CrossRef
27. Tabatabai NM, Blumenthal SS, Petering DH (2005) Adverse effect of cadmium on binding of transcription factor Sp1 to the GC-rich regions of the mouse sodium-glucose cotransporter 1, SGLT1, promoter. Toxicology 207(3):369-82 CrossRef
28. Vallon V (2011) Molecular determinants of renal glucose reabsorption. Focus on “Glucose transport by human renal Na?+/d -glucose cotransporters SGLT1 and SGLT2- Am J Physiol Cell Physiol 300:C6–C8 CrossRef
29. Vallon V, Platt KA, Cunard R, Schroth J, Whaley J, Thomson SC, Koepsell H, Rieg T (2011) SGLT2 mediates glucose reabsorption in the early proximal tubule. J Am Soc Nephrol 22(1):104-12 CrossRef
30. Vallon V, Rose M, Gerasimova M, Satriano J, Platt KA, Koepsell H, Cunard R, Sharma K, Thomson SC, Rieg T (2013) Knockout of Na-glucose transporter SGLT2 attenuates hyperglycemia and glomerular hyperfiltration but not kidney growth or injury in diabetes mellitus. Am J Physiol Renal Physiol 304(2):F156–F167 CrossRef
31. Ward AM (1970) Tubular metaplasia in Bowman’s capsule. J Clin Pathol 23(6):472-74 CrossRef
32. Wright EM, Loo DD, Hirayama BA (2011) Biology of human sodium glucose transporters. Physiol Rev 91(2):733-94 CrossRef
33. Yabuki A, Suzuki S, Matsumoto M, Nishinakagawa H (1999) Morphometrical analysis of sex and strain differences in the mouse nephron. J Vet Med Sci 61(8):891-96 CrossRef - 作者单位:Niloofar M. Tabatabai (1)
Paula E. North (3)
Kevin R. Regner (2)
Suresh N. Kumar (3)
Christine B. Duris (3)
Amy B. Blodgett (1)
1. Division of Endocrinology, Metabolism and Clinical Nutrition, Department of Medicine, Medical College of Wisconsin, 8701 Watertown Plank Road, Milwaukee, WI, 53226, USA
3. Division of Pediatric Pathology, Department of Pathology, Medical College of Wisconsin, Milwaukee, WI, USA
2. Division of Nephrology, Department of Medicine, Medical College of Wisconsin, Milwaukee, WI, USA - ISSN:1432-1424
文摘
In kidney nephron, parietal epithelial cells line the Bowman’s capsule and function as a permeability barrier for the glomerular filtrate. Bowman’s capsule cells with proximal tubule epithelial morphology have been found. However, the effects of tubular metaplasia in Bowman’s capsule on kidney function remain poorly understood. Sodium-glucose cotransporter 2 (SGLT2) plays a major role in reabsorption of glucose in the kidney and is expressed on brush border membrane (BBM) of epithelial cells in the early segment of the proximal tubule. We hypothesized that SGLT2 is expressed in tubularized Bowman’s capsule and used our novel antibody to test this hypothesis. Immunohistochemical analysis was performed with our SGLT2 antibody on C57BL/6 mouse kidney prone to have tubularized Bowman’s capsules. Cell membrane was examined with periodic acid-Schiff (PAS) stain. The results showed that SGLT2 was localized on BBM of the proximal tubules in young and adult mice. Bowman’s capsules were lined mostly with normal brush border-less parietal epithelial cells in young mice, while they were almost completely covered with proximal tubule-like cells in adult mice. Regardless of age, SGLT2 was expressed on BBM of the tubularized Bowman’s capsule but did not co-localize with nephrin in the glomerulus. SGLT2-expressing tubular cells expanded from the urinary pole toward the vascular pole of the Bowman’s capsule. This study identified the localization of SGLT2 in the Bowman’s capsule. Bowman’s capsules with tubular metaplasia may acquire roles in reabsorption of filtered glucose and sodium.