Biology of glomerular cells in culture

The glomerulus is a complex structure including four cell types, namely mesangial, visceral epithelial, parietal epithelial and endothelial cells. Mesangial cells resemble smooth muscle cells and play a major role in the synthesis of the components of the glomerular basement membrane and in the vasoreactivity of the glomerular tuft. In particular, they express receptors for angiotensin II which mediate mesangial cell contraction, this effect resulting in the decrease of the filtration area. They are also the site of synthesis of a variety of inflammatory agents which are involved in the development of glomerular injury in glomerulonephritis. Visceral epithelial cells, also referred to a podocytes, also participate in the synthesis of the normal constituents of the glomerular basement membrane. They express receptors for atrial natriuretic factor and possess on their surface a number of ectoenzymes. They also, in concert with mesangial cells, release metalloproteases which contribute to the degradation of the extracellular matrix. Parietal epithelial cells have been little studied. They represent the main constituent of the crescents observed in extracapillary proliferative glomerulonephritis. Endothelial cells secrete vasodilatory agents such as nitric oxide and prostacyclin and vasoconstrictor agents such as endothelin which act on the adjacent mesangial cells. New methods of culture of glomerular cells are in progress. Their aim is to keep as long as possible the physiological phenotype of these cells. Another progress is the availability of stable transformed cell lines which represent an abundant source of material for biochemical studies.     

Localization in situ of type VI collagen protein and its mRNA in mesangial proliferative glomerulonephritis using renal biopsy sections

 Extracellular matrix accumulation is crucial in the pathogenesis of glomerulosclerosis in mesangial proliferative glomerulonephritis (GN). In an attempt to explore the distribution of type VI collagen and its synthesizing cells in normal and diseased glomeruli, we investigated mRNA and protein expression of type VI collagen in renal biopsy sections, histologically diagnosed as mesangial proliferative GN. Five renal biopsies from patients diagnosed as having minor glomerular abnormalities and one surgical renal tissue were also simultaneously examined as controls. Immunohistochemical studies revealed type VI collagen immunostaining in the mesangium and glomerular basement membrane of the control glomeruli. Compared to the control, increased deposition of type VI collagen was noted in the mesangial proliferative and sclerotic lesions in GN. To identify the cells responsible for the synthesis of type VI collagen mRNA, renal sections were hybridized in situ with digoxigenin-labeled antisense oligo-DNA probe complementary to a part of α1 (VI) mRNA. Occasionally intraglomerular cells hybridized with digoxigenin-labeled antisense pro α1 (VI) oligo-DNA in control glomeruli. An increased number of intraglomerular cells (mostly epithelial cells) were, however, positive for α1 (VI) mRNA expression in GN sections. The present study documents the distribution of type VI collagen in the normal glomeruli and provides further evidence of accelerated synthesis of this collagen in mesangial proliferative GN. Accepted: 21 July 1998     

The long pentraxin PTX3 is synthesized in IgA glomerulonephritis and activates mesangial cells

The long pentraxin PTX3 has been recently involved in amplification of the inflammatory reactions and regulation of innate immunity. In the present study we evaluated the expression and role of PTX3 in glomerular inflammation. PTX3 expression was investigated in the IgA, type I membranoproliferative, and diffuse proliferative lupus glomerulonephritis, which are characterized by inflammatory and proliferative lesions mainly driven by resident mesangial cells, and in the membranous glomerulonephritis and the focal segmental glomerular sclerosis, where signs of glomerular inflammation are usually absent. We found an intense staining for PTX3 in the expanded mesangial areas of renal biopsies obtained from patients with IgA glomerulonephritis. The pattern of staining was on glomerular mesangial and endothelial cells. Scattered PTX3-positive cells were also detected in glomeruli of type I membranoproliferative glomerulonephritis. The concomitant expression of CD14 suggests an inflammatory origin of these cells. Normal renal tissue and biopsies from patients with the other glomerular nephropathies studied were mainly negative for PTX3 expression in glomeruli. However, PTX3-positive cells were detected in the interstitium of nephropathies showing inflammatory interstitial injury. In vitro, cultured human mesangial cells synthesized PTX3 when stimulated with TNF-alpha and IgA and exhibited specific binding for recombinant PTX3. Moreover, stimulation with exogenous PTX3 promoted mesangial cell contraction and synthesis of the proinflammatory lipid mediator platelet-activating factor. In conclusion, we provide the first evidence that mesangial cells may both produce and be a target for PTX3. The detection of this long pentraxin in the renal tissue of patients with glomerulonephritis suggests its potential role in the modulation of glomerular and tubular injury.     

Renal synthesis of leukaemia inhibitory factor (LIF), under normal and inflammatory conditions

Leukaemia inhibitory factor (LIF) is a pleiotropic cytokine that is particularly involved in nephrogenesis and repair of the extracellular matrix. Transgenic mice overexpressing LIF have mesangial proliferative glomerulonephritis. Also, during local inflammatory reactions, such as kidney graft rejection or urinary tract infections, urinary LIF excretion is enhanced. The aim of the study therefore was to study LIF production by normal and inflammatory diseased kidneys (glomerulonephritis or graft rejection), maintained in short cultures. To determine the responsibility of the kidney itself in LIF synthesis, we measured LIF secretion into the culture supernatants of human mesangial or renal tubular epithelial cells. Fragments from diseased kidneys, whether grafts or not, released more LIF than normal human kidney fragments, mesangial or renal tubular epithelial cells. However, LIF production was delayed in renal transplants compared to glomerulonephritic samples taken from untreated patients. In every case, LIF production was enhanced by interleukin 1beta (IL-1beta) and inhibited by IL-4 or dexamethasone, except in two severe rejection episodes. So, LIF appeared to respond to pro- and anti-inflammatory stimuli, in vitro and in vivo. Considering its biological effects, LIF could play a role in inflammatory renal diseases.     

Distribution of alphavbeta3, alphavbeta5 integrins and the integrin associated protein--IAP (CD47) in human glomerular diseases

The alphav integrins present on the membrane of numerous cells, mediate attachment to matrix proteins, cell proliferation, migration and survival. We studied the expression of alphav integrinis and CD47 (a beta3 chain integrin associated protein) in various forms of glomerulonephritis (GN) characterized by mesangial proliferation and/or increased mesangial matrix. In normal glomeruli, epithelial cells expressed alphavbeta3, alphavbeta5 and CD47; endothelial cells expressed alpha5beta1 and CD47; mesangial cells expressed alphavbeta5, CD47, and to a less extent alphavbeta3. In acute post infectious GN (APIGN), membrano-proliferative GN (MPGN) and diabetic nephropathy(DN), we observed that the beta3 chain, normally expressed by mesangial cells, was not detectable in the mesangium while its expression by epithelial cells was not modified. Parallel to the disappearance of alphavbeta3, the CD47 expression was decreased on the mesangial cells in MPGN, APIGN and DN. The expression of alphavbeta5 was clearly increased on podocytes and on proliferating mesangial cells in APIGN. By contrast, the mesangial expression of alphavbeta was normal or decreased in DN. The alpha5 chain of integrin, absent on normal mesangial cell, was expressed on proliferating mesangial cells in MPGN and APIGN. Thus, we observed modifications of alphavbeta3 and alphavbeta5 expression during human GN. The modulations of alphavbeta3 and alphavbeta5 expression differed according to the different glomerular cell types and were not parallel in glomerular cells: alphavbeta3 was decreased (and alphavbeta5 unchanged) on proliferating mesangial cells and alphavbeta5 was increased (and alphavbeta3 unchanged) in podocytes. This may reflect the existence of two distinct regulatory pathways.     

An ultrastructural study of proliferative nephritis induced experimentally by a monoclonal antibody against mesangial cells: replacement of mesangial cells by cells of the monocyte-macrophage system

An experimental nephritis accompanied by transient proteinuria can be produced by an intravenous injection of the monoclonal antibody, 1-22-3, raised against isolated rat glomeruli. The present study deals with the ultrastructural changes in the glomeruli in rats after the injection of this antibody. At 2 h after injection, all the mesangial cells had completely degenerated and neutrophils invaded most mesangial areas. Monocytes occupied the vacant mesangial areas at 24 h and gradually increased in number over the next 4 days. At 4 and 6 days, macrophage-like cells, possibly derived from monocytes, underwent frequent mitosis, resulting in a remarkable proliferation of these cells. The interpretation of these cells as macrophages was strongly supported by the fact that they contained previously injected latex particles in large numbers. From 2 to 4 weeks after injection, the macrophage-like cells gradually transformed into cells indistinguishable from normal mesangial cells. In the present experimental nephritis where all mesangial cells were initially destroyed, cells of the monocyte-macrophage system appear to play a leading role in the pathogenesis of the ensuing proliferative glomerulonephritis, and represent the source of the replacing mesangial cells.     

Light and Electron Microscopical Studies of the Renal Lesion in Dogs With Pyometra

Kidney biopsies from 23 bitches with pyometra and an entire kidney from four pyometra bitches were examined by light microscopy. Kidney tissue was also taken from three bitches at different intervals after ovariohysterectomy for pyometra. All the pyometra bitches had membranous glomerulonephritis or mixed proliferative and membranous glomerulonephritis. Two of the bitches had intraglomerular hyaline nodules resembling those seen in conjunction with diabetes in human beings. The degree of glomerular damage could be correlated with the reduction in glomerular filtration rate determined by function tests. The proximal tubules generally contained numerous hyaline droplets but the degree of this change could not be correlated to the degree of glomerular damage. A yellow pigment, a lipofuscin, was regularly present in the proximal tubules as well as epithelial proliferation and mitoses. Focal atrophy of tubules also occurred, presumably because of obliteration of glomeruli. The cortical interstitium contained collections of mature and immature plasma cells, often surrounding the glomeruli. When the kidneys from three bitches were examined after ovariohysterectomy for pyometra, the glomerular damage in two had regressed to leave only slight thickening of the capillary walls. In the third bitch, examined only 14 days after ovariohysterectomy, healing was partial. Kidney tissue from five bitches was also examined by electron microscopy. The glomerular endothelial cells were swollen and the basement membrane was grealy thickened. With more severe degrees of glomerular damage, an electron-dense material was deposited along the inner surface of the basement membrane and the swollen mesangial cells contained numerous inclusions. There was focal fusion of the foot processes of the glomerular epithelial cells; in one bitch with heavy proteinuria, the fusion was widespread. The proximal tubules contained numerous protein absorption droplets representing resorbed protein. The tubular basement membrane at all levels was thickened. Because of similarities with some other types of renal damage (nephrotoxic nephritis in dogs and acute proliferative glomerulonephritis in human beings), the possibility is broached that the renal lesion in pyometra is the result of an immunobiological process.     

An ultrastructural study of proliferative nephritis induced experimentally by a monoclonal antibody against mesangial cells: replacement of mesangial cells by cells of the monocyte-macrophage system.

An experimental nephritis accompanied by transient proteinuria can be produced by an intravenous injection of the monoclonal antibody, 1-22-3, raised against isolated rat glomeruli. The present study deals with the ultrastructural changes in the glomeruli in rats after the injection of this antibody. At 2 h after injection, all the mesangial cells had completely degenerated and neutrophils invaded most mesangial areas. Monocytes occupied the vacant mesangial areas at 24 h and gradually increased in number over the next 4 days. At 4 and 6 days, macrophage-like cells, possibly derived from monocytes, underwent frequent mitosis, resulting in a remarkable proliferation of these cells. The interpretation of these cells as macrophages was strongly supported by the fact that they contained previously injected latex particles in large numbers. From 2 to 4 weeks after injection, the macrophage-like cells gradually transformed into cells indistinguishable from normal mesangial cells. In the present experimental nephritis where all mesangial cells were initially destroyed, cells of the monocyte-macrophage system appear to play a leading role in the pathogenesis of the ensuing proliferative glomerulonephritis, and represent the source of the replacing mesangial cells.     

Distribution of αvβT3, αvβTB5 Integrins and the Integrin Associated Protein — IAP (CD47) in Human Glomerular Diseases

The av integrins present on the membrane of numerous cells, mediate attachment to matrix proteins, cell proliferation, migration and survival. We studied the expression of av integrins and CD47 (a 03 chain integrin associated protein) in various forms of glomerulonephritis (GN) characterized by mesangial proliferation and/or increased mesangial matrix. In normal glomeruli, epithelial cells expressed αvβT3, αvβT5 and CD47; endothelial cells expressed α5βT1 and CD47; mesangial cells expressed αvβT5, CD47, and to a less extent αvβT3. In acute post infectious GN (APIGN), membranoproliferative GN (MPGN) and diabetic nephropathy (DN), we observed that the βT3 chain, normally expressed by mesangial cells, was not detectable in the mesangium while its expression by epithelial cells was not modified. Parallel to the disappearance of αvβT3, the CD47 expression was decreased on the mesangial cells in MPGN, APIGN and DN. The expression of αvβT5 was clearly increased on podocytes and on proliferating mesangial cells in APIGN. By contrast, the mesangial expression of αvβT5 normal or decreased in DN. The α5 chain of integrin, absent on normal mesangial cell, was expressed on proliferating mesangial cells in MPGN and APIGN.

Thus, we observed modifications of avp3 and avp5 expression during human GN. The modulations of αvβT3 and αvβT5 expression differed according to the different glomerular cell types and were not parallel in glomerular cells: avp3 was decreased (and αvβT5 unchanged) on proliferating mesangial cells and αvβT5 was increased (and αvβT3 unchanged) in podocytes. This may reflect the existence of two distinct regulatory pathways.     

Intraglomerular fibronectin in rat experimental glomerulonephritis.

To clarify the mechanisms of glomerular pericapillary fibronectin deposition in human membranous nephropathy and mesangial proliferative glomerulonephritis, intraglomerular fibronectin distribution was examined by light and electron microscopy using the experimental rat models of Heymann and nephrotoxic serum nephritis. As previously demonstrated by immunofluorescence microscopy (Pettersson and Colvin 1978; Ikeya et al. 1985, 1986), fibronectin was distributed in the mesangial areas and occasionally on percicapillary walls of normal glomeruli, while in nephrotoxic serum nephritis and Heymann nephritis, fibronectin was diffusely located along glomerular capillary walls as well as in the mesangium. By immunoelectron microscopy using the immunogold technique, fibronectin was also noted in the mesangial areas and the lamina densa of the glomerular basement membrane (GBM) in normal glomeruli. In nephrotoxic serum nephritis, fibronectin was seen around mesangial cells situated between endothelial cells and the GBM, suggesting that pericapillary fibronectin in nephrotoxic serum nephritis reflects mesangial extension. However, in Heymann nephritis, it was found uniformly in the lamina rara interna, lamina densa and lamina rara externa of the GBM, indicating no specific relation to glomerular cells. When sections of normal and both experimental nephritis kidneys were incubated with fluorescein isothiocyanate conjugated with rat plasma fibronectin, a linear pattern of fluorescein staining along the glomerular capillary walls was observed in Heymann nephritis but not in normal or nephrotoxic serum nephritic rats. The GBM in Heymann nephritis would thus appear to have an affinity for plasma fibronectin. Based on the above findings, fibronectin in the GBM of rats with Heymann nephritis may reasonably be concluded to originate from the plasma.     

Dendritic cells in glomerulonephritis.

Renal biopsies (n = 45) from patients with various forms of glomerulonephritis (GN), comprising mesangial IgA-GN (n = 25), focal glomerular sclerosis (n = 13) and acute GN (n = 7), were examined by double staining immunocytochemistry (APAAP, streptavidin-peroxidase) using unconjugated monoclonal antibodies (Ab) against--(i) the CD1b antigen expressed on dendritic cells (DCs), (ii) the invariant chain (Ii), and (iii) biotin-conjugated Ab against HLA-DR. In normal control kidneys (n = 7) without interstitial inflammation, CD1b-positive DCs were not detected. Glomerular endothelial cells and a few cells in mesangial areas showed double staining with the Ab against HLA-DR in Ii. In GN without active interstitial inflammation (n = 9), CD1b-positive DCs were not found. In biopsies with interstitial inflammation (n = 36) CD1b-positive DCs were found interspersed among other inflammatory cells. In seven of the biopsies showing IgA-GN DCs were seen in the vicinity of those glomeruli that exhibited either crescents or glomerular sclerosis with splitting of Bowman's capsule. In proximal tubular epithelial cells de novo expression of HLA-DR/Ii-chain was only seen when DCs were present. We conclude that in different forms of GN: (i) CD1b-positive DCs play an important role in the development of interstitial inflammation, and (ii) their presence may be related to the de novo coexpression of HLA-DR/Ii in tubular epithelial cells, possibly mediated through the production of interferon gamma and other cytokines.     

Dendritic cells in glomerulonephritis

Renal biopsies (n = 45) from patients with various forms of glomerulonephritis (GN), comprising mesangial IgA-GN (n = 25), focal glomerular sclerosis (n = 13) and acute GN (n = 7), were examined by double staining immunocytochemistry (APAAP, streptavidinperoxidase) using unconjugated monoclonal antibodies (Ab) against (i) the CD1b antigen expressed on dendritic cells (DCs), (ii) the invariant chain (Ii), and (iii) biotin-conjugated Ab against HLA-DR. In normal control kidneys (n = 7) without interstitial inflammation, CD1b-positive DCs were not detected. Glomerular endothelial cells and a few cells in mesangial areas showed double staining with the Ab against HLA-DR in Ii. In GN without active interstitial inflammation (n = 9), CD1b-positive DCs were not found. In biopsies with interstitial inflammation (n = 36) CDlb-positive DCs were found interspersed among other inflammatory cells. In seven of the biopsies showing IgA-GN DCs were seen in the vicinity of those glomeruli that exhibited either crescents or glomerular sclerosis with splitting of Bowman’s capsule. In proximal tubular epithelial cells de novo expression of HLA-DR/Ii-chain was only seen when DCs were present. We conclude that in different forms of GN: (i) CDlb-positive DCs play an important role in the development of interstitial inflammation, and (ii) their presence may be related to the de novo coexpression of HLA-DR/Ii in tubular epithelial cells, possibly mediated through the production of interferon γ and other cytokines. Supported by the Deutsche Forschungsgemeinschaft (Wa 698/2-1)     

Mesangioproliferative Glomerulonephritis in Mink with Encephalitozoonosis

Renal specimens from 6 mink with encephalitozoonosis were studied by light and electron microscopy and immunohistochemistry. The glomeruli of affected kidneys had a mesangioproliferative glomerulonephritis which was characterized by an increase in mesangial cells and matrix in most glomeruli. Some glomeruli were partially or completely sclerosed. There were protein or granular casts in the cortical and medullary tubules. Interstitial nephritis, vasculitis and tubular cysts were found. Electron microscopy demonstrated extensive matrix and increased cellularity in the mesangial areas. Glomeruli showed segmentally thickened or wrinkled capillary basement membranes. Electron dense deposits were found in the glomerular basement membranes and mesangium. Peroxidase-anti-peroxidase immunohistochemistry demonstrated that IgG and IgM positive material was present as granular deposits in the glomerular basement membrane and occasionally in the mesangium.     

Thyroid antigen-antibody nephritis: possible involvement of fucosyl-GM1 as the antigen

Hyperthyroidism, microscopic hematuria, and proteinuria developed in an 11-year-old girl. Proteinuria decreased during treatment of hyperthyroidism with an antithyroid drug. On admission, serum anti-thyroglobulin antibody, antimicrosomal antibody, and immune complex were present. The thyrotropin binding inhibitory immunoglobulin (TBII) level was low. On the other hand, an antibody to the ganglioside component (fucosyl-GM1) was detected by an enzyme linked immunosolvent assay (ELISA). A thyroid biopsy specimen showed massive lymphocytic infiltration and interstitial fibrosis. A renal biopsy specimen showed marked proliferation of mesangial cells and increased mesangial matrix with focal segmental capillary wall abnormality. Electron microscopec studies demonstrated mild paramesangial dense deposits. By indirect immunofluorescence, granular glomerular basement membrane and mesangial staining were not detected with rabbit antibody to thyroglobulin, but were detected with rabbit antibody to fucosyl GM1. Fucosyl GM1 was also seen along the basilar aspect of the thyroid follicular epithelial cells. These observation suggests the development of glomerulonephritis mediated by thyroid antigen, particularly ganglioside component.     

Symptomless Haematuria in Childhood

The clinical, laboratory, and renal biopsy findings in 47 children with symptomless haematuria are reported. In 41 the haematuria was recurrent. Local causes were excluded by means of intravenous urography, which was normal in all but one child, who had a horseshoe kidney.Since all the patients had presented in a similar manner they were classified into four groups according to the severity of glomerular changes on renal biopsy. In group I the glomeruli were optically normal. In group 2 they showed a variable degree of mesangial thickening with absent or minimal cellular proliferation. In group 3 there was diffuse mesangial thickening and proliferation—an appearance indistinguishable from that of subsiding post-streptococcal glomerulonephritis. Compared with groups 1 and 2, more patients in this group had persistent proteinuria, as well as evidence of streptococcal infection preceding the initial haematuria. Only two patients showed severe proliferative glomerulonephritis on biopsy (group 4); both had heavy proteinuria and one repeatedly had low serum β1_c-globulin levels.     

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A 20-year-old man with a 10-year history of glomerulonephritis presented with a purpuric rash on his legs. A renal biopsy specimen obtained when he was 11 years old had shown mesangial glomerulonephritis; staining 9 years later for IgA had negative results. A second renal biopsy, performed when the rash was present, revealed mesangial glomerulonephritis and mesangial deposits of IgA; biopsies of the involved skin showed leukocytoclastic vasculitis. In this case isolated glomerulonephritis appeared to change to a multisystem illness, with a different immunologic character, through one of several possible pathogenetic mechanisms.     

Alteration of glomerular anionic sites by the development of subepithelial deposits in experimental glomerulonephritis in the rat

Using highly cationic polyethleneimine, alteration of glomerular anionic sites were evaluated ultrastructurally in two types of rat glomerulonephritis (GN); chronic serum sickness GN and heterologous (passive) or autologous (active) Heymann's GN. Daily i.v. injections of egg white lysozyme in physiologic saline into presensitized rats led to the formation of numerous mesangial and subepithelial deposits. In the non-proteinuric period in which immune deposits were localized predominantly in the mesangium, anionic sites of the laminae rarae and the epithelial cell coat were clearly observed. In the subsequent proteinuric period in which numerous subepithelial deposits were superimposed, a broad loss of anionic sites in the epithelial cell coat was seen. Splitting and focal loss of anionic sites on the lamina rara externa adjacent to the subepithelial deposits were commonly observed both in passive and active Heymann's GN and in lysozyme GN. These findings indicate that the subepithelial deposits are closely involved in the development of proteinuria by injuring the anionic sites, especially those on lamina rare externa of the glomerular basement membrane.     

Gasotransmitter synthesis and signalling in the renal glomerulus. Implications for glomerular diseases

Glomerular injury is a hallmark of kidney diseases such as diabetic nephropathy, IgA nephropathy or other forms of glomerulonephritis. Glomerular endothelial cells, mesangial cells, glomerular epithelial cells (podocytes) and, in an inflammatory context, infiltrating immune cells crosstalk to mediate signalling processes in the glomerulus. Under physiological conditions, mesangial cells act by the control of extracellular matrix production and degradation, by the synthesis of growth factors and by preserving a well-defined crosstalk with glomerular podocytes and endothelial cells to regulate glomerular structure and function. It is well known that mesangial cells are able to amplify an inflammatory process by the formation of cytokines, reactive oxygen species (ROS) and nitric oxide (NO). This exaggerated reaction may result in a vicious cycle with subsequent damage of neighboured podocytes and endothelial cells, loss of the filtration barrier and, finally destruction of the whole glomerulus. Unfortunately, all efforts to develop new therapies for the treatment of glomerular diseases by controlling unbridled ROS or NO production directly had so far no success. However, on-going research on ROS and NO defined these autacoids more as important signalling molecules than as endogenously produced cytotoxic compounds. New findings on signalling activities of ROS, NO but also hydrogen sulfide (H₂S) and carbon monoxide (CO) supported this paradigm shift. Because of their similar chemical properties and their similar signal transduction capacities, NO, H₂S and CO are meanwhile designated as the group of gasotransmitters. In this review, we describe the current knowledge of the signalling properties of gasotransmitters with a focus on glomerular cells and their role in glomerular diseases.     

Immunohistochemical study of a case of malignant müllerian mixed tumor in comparison with the activity of normal uterine tissue

A case of malignant Müllerian mixed tumor of the uterus, exhibiting a histology of heterologous osteosarcomatous differentiation, is presented. Special emphasis is placed on the characteristic immunohistochemical reactivity of the tumor tissue in comparison with that of normal uterine tissue in the proliferative phase. Keratin, cytokeratin, epithelial membrane antigen (EMA), carcinoembryonic antigen (CEA), and human chorionic gonadotropin (HCG) were found only in the carcinomatous element. However, neuron specific enolase (NSE), S-100 protein (S 100) and vimentin were identified in almost all tumor tissue elements. Desmin and actin were not stained in any elements. Myoglobin was only detected weakly in the squamous carcinomatous element. Undifferentiated cell element, composed of small, round, spindle, or polygonal cells showed positive reactions to NSE and S 100, but not to any other antibodies. As compared to the reactivities of the normal proliferative endometrium, the glandular epithelial cells were positive with NSE, S 100, vimentin and CEA, but the stromal cells were only positive with vimentin. Such a multitudinous and concomitant expression of antigenicity to the different tumor elements indicates a close relationship to its mesodermal Müllerian origin, and NSE, S 100 and vimentin might be most adequate indicators of these types of tumors.