Abstract
The human mesonephros is currently regarded as a simplified version of the foetal metanephros, primarily due to the close morphological resemblance between these two structures. The aim of the present study was to define whether human mesonephric and foetal metanephric nephrons share immunophenotypical traits in their corresponding structures (glomeruli, proximal and distal tubules). For this purpose we first investigated immunohistochemically the overall expression and topographical distribution of cytokeratins 7, 8, 18, 19, and 20, vimentin and α-smooth muscle actin in mature mesonephric nephrons and compared the results with those obtained in maturing-stage foetal metanephric nephrons. No expression of cytokeratins 7 and 20 was found. Cytokeratins 8, 18, and 19 and vimentin showed a restricted and basically coincident expression along the different components of both mesonephric and metanephric nephrons. These findings indicate that the intermediate filament protein profile of human mature mesonephric nephrons closely recapitulates that observed in developing metanephros and thereby strengthens the concept that human mesonephros, a transient ontogenic structure, is largely similar to the foetal metanephros.
The sole difference between human mesonephros and foetal metanephros was the divergent expression of α-smooth muscle actin. This protein exhibited an increasingly accentuated mesangial expression paralleling the morphological maturation of metanephric glomerulus, whereas it was absent from the mesonephric one. This would suggest that the mesangial cells in these two renal structures have a different function during the foetal life.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Alpers CE, Seifert RA, Hudkins KL, Johnson RJ, Bowen-Pape DF (1992) Developmental patterns of PDGF B-chain, PDGF-receptor, and alpha-actin expression in human glomerulogenesis. Kidney Int 42: 390–399.
Altschule MD (1984) The changes in the mesonephric tubules of human embryos ten to twelve weeks old. Anat Rec 210: 81–91.
Bernardini N, Bianchi F, Lupetti M, Dolfi A (1996) Immunohistochemical localization of the epidermal growth factor, transforming growth factor α, and their receptor in the human mesonephros and metanephros. Dev Dyn 206: 231–238.
De Martino C, Zamboni L (1966) A morphologic study of the mesonephros of the human embryo. J Ultrastruct Res 16: 399–427.
De Martino C, Zamboni L, Accini L (1977) Fine morphology of regressing human mesonephric nephrons. Experimantal Mol Pathol 26: 169–183.
Ekblom P (1992) Renal development. In: Seldin DW, Giebish G, eds. The Kidney: Physiology and Pathophysiology,NewYork: Raven Press, pp. 475–479.
Holthofer H, Miettinen A, Lehto VP, Lehtonen E, Virtanen I (1984) Expression of vimentin and cytokeratin types of intermediate filament proteins in developing and adult human kidneys. Lab Invest 50: 552–559.
Groma V, Marcussen N, Olsen S (1997) A quantitative immunohistochemical study of the expression of mesangial alpha-smooth actin and the proliferation marker Ki-67 in glomerulonephritis in man. Virchows Arch 431: 345–350.
Larsen WJ (1997) Human Embryology; 2nd edn., New York: Churchill-Livingstone.
MacPherson BR, Leslie KO, Lizaso KV, Schwarz JE (1993) Contractile cells of the kidney in primary glomerular disorders: an immunohistochemical study using an anti-alpha-smooth muscle actin monoclonal antibody. Hum Pathol 24: 710–716.
Magro G, Grasso S, Colombatti A, Villari L, Emmanuele C (1995a) Distribution of extracellular matrix glycoproteins in the human mesonephros. Acta Histochem 97: 343–351.
Magro G, Grasso S (1995b) Expression of cytokeratins, vimentin and basement membrane components in human foetal male Mullerian duct and perimullarian mesenchyme. Acta Histochem 97: 13–18.
Magro G, Grasso S, Colombatti A, Lopes M (1996) Immunohistochemical distribution of type VI collagen in developing human kidney. Histochem J 28: 385–390.
Matsell DG, Bennett T, Goodyer P, Goodyer C, Han VKM (1996) The pathogenesis of multicystic dysplastic kidney disease: insights from the study of foetal kidneys. Lab Invest 74: 883–893.
Moll R, Hage C, Thoenes W (1991) Expression of intermediate filament proteins in foetal and adult human kidney: modulations of intermediate filament patterns during development and in damaged tissue. Lab Invest 66: 74–86.
Oosterwijk E, Van Muijen GNP, Oosterwijk-Wakka JC, Warnaar SO (1990) Expression of intermediate-sized filaments in developing and adult kidney and in renal cell carcinoma. J Histochem Cytochem 38: 385–392.
Rana MW (1998) HumanEmbryology Made Easy, Amsterdam: Harwood Academic Publishers.
Rogatsch H, Jezek D, Hittmair A, Mikuz G, Feichtinger H (1996) Expression of vimentin, cytokeratin, and desmin in Sertoli cells of human foetal cryptorchid, and tumour-adjacent testicular tissue. Virchow Arch 427: 497–502.
Sainio K, Raatikainen-Ahokas A (1999) Mesonephric kidney – a stem cell factory? Int J Dev Biol 43: 435–439.
Singer DB, Sung CJ, Wigglesworth JS (1991) Fetal growth and maturation: with standard for body and organ development. In: Wigglesworth JS, Singer DB, eds. Textbook of Foetal and Perinatal Pathology, Boston: Blackwell Scientific Publications, pp. 29–47.
Stephenson LA, Haney LB, Hussaini IM, Karsus LR, Glass WF (1998) Regulation of smooth muscle actin expression and hypertrophy in cultured mesangial cells. Kidney Int 54: 1175–1187.
Tilmann C, Capel B (1999) Mesonephric cell migration induces testis cord formation and Sertoli cell differentiation in the mammalian gonad. Development 126: 2883–2890.
Wartenberg H (1978) Human testicular development and the role of the mesonephros in the origin of a dual sertoli cell system. Andrologia 10: 1–21.
Wartenberg H (1982) Development of the early human ovary and role of the mesonephros in the differentiation of the cortex. Anat Embryol 165: 253–280.
Wilson KM (1926) Origin and development of the rete ovarii and rete testis in the human embryo. Contr Embryol Carnegie Inst 17: 69–88.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Magro, G., Perris, R., Romeo, R. et al. Comparative Immunohistochemical Analysis of the Expression of Cytokeratins, Vimentin and α-smooth Muscle Actin in Human Foetal Mesonephros and Metanephros. Histochem J 33, 221–226 (2001). https://doi.org/10.1023/A:1017950425012
Issue Date:
DOI: https://doi.org/10.1023/A:1017950425012