Endochondral bone formation is involved in media calcification in rats and in men.

Arterial media calcification is often considered a cell-regulated process resembling intramembranous bone formation, implying a conversion of vascular tissue into a bone-like structure without a cartilage intermediate. In this study, we examined the association of chondrocyte-specific marker expression with media calcification in arterial samples derived from rats with chronic renal failure (CRF) and from human transplant donors. CRF was induced in rats with a diet supplemented with adenine. Vascular calcification was evaluated histomorphometrically on Von Kossa-stained sections and the expression of the chondrocyte markers sox9 and collagen II with the osteogenic marker core-binding factor alpha1 (cbfa1) was determined immunohistochemically. Media calcification was detected in more than half of the rats with CRF. In over half of the rats with severe media calcification, a typical cartilage matrix was found by morphology. All of the animals with severe calcification showed the presence of chondrocyte-like cells expressing the markers sox9, collagen II, and cbfa1. Human aorta specimens showing mild to moderate media calcification also showed sox9, collagen II, and cbfa1 expression. The presence of chondrocytes in association with calcification of the media in aortas of rats with CRF mimics endochondral bone formation. The relevance of this association is further demonstrated by the chondrogenic conversion of medial smooth muscle cells in the human aorta.

Anti-B7-1 blocks mononuclear cell adherence in vasa recta after ischemia.

BACKGROUND: Blocking the costimulatory pathway by CTLA-4 Ig, reactive with both B7-1 and B7-2 costimulatory molecules, protects the kidney during acute ischemia/reperfusion injury. This study investigated whether and how B7-1 and/or B7-2 proteins are involved in renal ischemia/reperfusion injury (IRI). METHODS: Uninephrectomized rats were submitted to warm renal ischemia (30 min) and received control monoclonal antibody (mAb; 17E3), anti-B7-1 (3H5), anti-B7-2 (24F), a combination of anti-B7-1/B7-2, or CTLA-4 Ig. Renal function, morphology, and the kinetics of inflammatory cells were studied for a ten-day period. Binding sites of the injected antibodies were detected by secondary staining with anti-mouse Ab. RESULTS: Compared with controls, acute renal failure (ARF) in the anti-B7-1 group was attenuated both functionally and morphologically. Anti-B7-1/B7-2 and CTLA-4 Ig also were protective in IRI. ARF was not altered by anti-B7-2 treatment. Two hours after reperfusion, B7-1 was expressed along the endothelial cells of the ascending vasa recta. Expression of B7-1 increased over time during the first 24 hours and decreased thereafter. Two hours after reperfusion, adherence/accumulation of T cells and monocytes/macrophages was found in the vasa recta of the ischemic kidney. Anti-B7-1-treated animals had fewer T cells and monocytes/macrophages in the vasa recta compared with controls. Leukocyte accumulation in these vessels after anti-B7-2 treatment was not different from IRI controls. CONCLUSION: These observations strongly support the key role of the B7-1 protein in the protection of renal IRI through inhibition of T cell and monocyte adherence at the level of the ascending vasa recta.

Oxidative modification of low-density lipoproteins and the outcome of renal allografts at 1 1/2 years.

BACKGROUND: Previous studies reported a significant association between hyperlipidemia of the recipient and chronic allograft nephropathy (CAN). However, the nature and the pathogenic mechanism of circulating lipid abnormalities in CAN remain unclear. METHODS: In a prospective study of 50 consecutive adult recipients of a cadaveric renal allograft, we investigated the impact of lipid abnormalities on the outcome of the graft at 1 1/2 years. Besides morphometric analysis of implantation and protocol biopsies, clinical and biochemical variables were studied at three-month intervals. Plasma concentrations of oxidized low-density lipoprotein (OxLDL) were determined by means of enzyme-linked immunosorbent assay. Immunohistochemical staining for OxLDL and macrophages was performed on paired renal biopsies. Study end points were the fractional interstitial volume and the 24-hour creatinine clearance at 11/2 years. RESULTS: High-density lipoprotein (HDL) cholesterol of the recipient < or =47 mg/dL was a risk factor for the functional (RR = 1.56; 95% CI, 0.978 to 2.497) and the morphological (RR = 2.75; 95% CI, 1.075 to 7.037) outcome of the graft, mainly in patients without acute rejection (RR = 2.03; 95% CI, 1.13 to 3.65, and RR = 4.67; 95% CI, 1.172 to 18.582, respectively). Interstitial accumulation of OxLDL was inversely associated with HDL cholesterol (R = -0.476, P = 0.019), and was associated with a higher density of tubulointerstitial macrophages (R = 0.656, P = 0.001) and a higher fractional interstitial volume at 11/2 years (P = 0.049). CONCLUSION: Decreased HDL cholesterol levels of the recipient adversely affect the outcome of renal allografts through the accumulation of OxLDL in the renal interstitium of the graft. Interstitial accumulation of OxLDL was associated with the presence of macrophages and the development of interstitial fibrosis.

Renal osteopontin protein and mRNA upregulation during acute nephrotoxicity in the rat.

BACKGROUND: The effect of segment-specific proximal tubular injury on spatio-temporal osteopontin (OPN) distribution was determined in two different nephrotoxic rat models to evaluate its conceivability with a possible role for OPN in acute renal failure (ARF). OPN gene expression was further determined in proximal and distal tubular cells to investigate the origin of increased renal OPN. METHODS: Renal OPN protein and mRNA expression were compared in the rat during mercuric-chloride- vs gentamicin-induced ARF using immunohistochemistry and in situ hybridization. RESULTS: Mercuric chloride primarily induced tubular injury and subsequent cell proliferation in proximal straight tubules (PST), whereas gentamicin predominantly injured proximal convoluted tubules (PCT). In both models, the distribution of OPN protein was associated with increased OPN mRNA levels in proximal as well as distal tubular cells. However, upregulation was delayed in the proximal tubular segment suffering most from injury, i.e. PCT in gentamicin ARF vs PST in mercuric-chloride ARF. OPN immunostaining at the apical cell membrane from distal tubules was in contrast to perinuclear vesicular staining in proximal tubular cells. CONCLUSIONS: OPN gene and protein expression is induced in both proximal and distal tubular cells during rat toxic ARF. The distinct subcellular localization in proximal vs distal tubular cells indicates differences in OPN processing and/or handling. The spatio-temporal distribution is consistent with a possible role in renal injury and regeneration.

Flow cytometric immunodissection of the human distal tubule and cortical collecting duct system.

BACKGROUND: In recent years, considerable efforts were drawn to isolate human distal tubule (DT) and collecting duct (CD) cells with more or less success. Here, we present a procedure for isolating human DT cells [thick ascending limb (TAL)/distal convoluted tubule (DCT)] and CD system cells (connecting tubule/initial CD) as separate populations within the same kidney specimen, applying monoclonal antibodies in fluorescence-activated cell sorting (FACS) and culturing them. METHODS: We tested antibodies directed against the DT/CD system antigens, epithelial membrane antigen (EMA) and L1-cell adhesion molecule (L1-CAM). Segmental and subsegmental expressions were first assessed by using morphologic and histotopographic criteria, and by comparing sections with adjacent sections stained for expression of well-defined distal subsegment-specific markers. Immunoreactive cells were further characterized by dual immunostaining using cell type-specific markers. As a second step, cells obtained by collagenase digestion of normal renal cortical tissue were flow sorted following labeling with aforementioned antibodies and cultured. RESULTS: EMA expression was found on all cells present in the DT and in the CD system. Its expression was most abundant in TAL and from thereon decreased gradually along the course of the DT and CD system. Flow sorting of all EMA-expressing cells resulted in identification/isolation of DT and CD system cells as a heterogeneous mixture. Flow sorting of only the most strongly EMA-positive cells allowed purification of DT cells only, mainly TAL cells as shown by Tamm-Horsfall protein expression on> 80% of sorted cells. L1-CAM was expressed in only the CD system, and sorting of all L1-CAM-positive cells allowed> 95% purification of CD system cells (connecting tubule/cortical CD). Primary cultures of DT and CD system cells rapidly developed into confluent monolayers, and retained antigenic and functional properties inherent to their segments of origin. CONCLUSION: Our study presents a procedure for isolating and culturing pure populations of human DT cells and CD system cells as separate populations, using antibodies to the best available markers in FACS.

TIMP-1 gene expression and PAI-1 antigen after unilateral ureteral obstruction in the adult male rat.

BACKGROUND: Sustained obstruction of urinary flow invariably leads to inflammation, loss of functional renal structures and progressive deposition of extracellular matrix proteins, culminating in renal fibrosis. Although increased renal tissue inhibitor of matrix metalloproteinase (TIMP-1) expression is one of the early events following experimental hydronephrosis, little is known about its cellular source. Both the recruited macrophage and the resident/recruited (myo)fibroblast have been postulated to be candidate TIMP-1 transcribing cells. Currently, data concerning plasminogen activator inhibitor type 1 (PAI-1) expression in the ligated kidney are unavailable. Our study concentrated on the localization of TIMP-1 expressing cells and PAI-1 immunoreactive cells in the obstructed rat kidney. METHODS: Rats were sacrificed 1, 5, 10, 15, 20 and 26 days after unilateral ureteral obstruction (UUO) or sham-surgery (SOR). Leukocyte (OX-1+), macrophage (ED1+) and neutrophil infiltration were analyzed using specific antibodies or nuclear morphology. alpha-Smooth muscle actin (alpha-SMA) immunostaining was measured morphometrically. Mitotic figures and nuclei with an apoptotic morphology were quantified in hematoxylin-eosin (H&E)-stained sections. TIMP-1 mRNA transcribing cells were localized with in situ hybridization (ISH) and identified by subsequent immunostainings for alpha-SMA and macrophages. PAI-1 antigenicity was evaluated immunohistochemically in SOR, contralateral unobstructed kidneys (CUK), and UUO kidneys. RESULTS: The number of leukocytes and macrophages in the ligated rat kidney increased progressively in time, starting from day 5 post-surgery when compared with CUKs. Neutrophil accumulation in UUO kidneys became apparent from day 5 and large intraluminal leukocyte clusters (neutrophils and macrophages) were found in the lumen of distended tubules, especially at later stages post-obstruction, when collected urine and tissue samples proved to be sterile upon culture. From day 5 on, the number of apoptotic cells started to predominate the number of mitotic cells in the obstructed kidneys. Interstitial alpha-SMA immunoreactivity in the ligated kidney expanded from day 5 on and was most pronounced in the inner stripe of the outer medulla. As early as 24 hours post-ligation, TIMP-1 mRNA transcribing interstitial cells were detected with ISH, while tubular TIMP-1 expression was sparse. Since at that point in time, no interstitial alpha-SMA expressing cells and only few ED1+ macrophages were present, the bulk of the TIMP-1 mRNA transcription occurred in other interstitial cells. Throughout the study period numerous interstitial TIMP-1 expressing cells were detectable in obstructed kidneys and from day 5 after ligation on, we could identify alpha-SMA+ and to a lesser degree ED1+ macrophages as TIMP-1 transcribing cells. In addition, dilated tubules containing intraluminal leukocyte casts were surrounded by a corona of intact neutrophils in H&E-stained sections and ISH showed that similar tubules were encircled by TIMP-1 mRNA expressing cells. PAI-1 immunoreactivity appeared to diminish in the early phase following urinary outlet obstruction, but emerged in damaged tubules from day 5 to 10 on. In later stages post-ligation, PAI-1+ cells and PAI-1 immunoreactive material were found embedded in the extracellular matrix. CONCLUSIONS: Our results confirm that TIMP-1 is active in the early phase of the fibrotic process and we demonstrated that initially TIMP-1 mRNA is transcribed by very few ED1+ macrophages but mainly by other, presently unidentified, interstitial cells. During later stages of post-ligation, both TIMP-1 (transcribed among others by alpha-SMA+ myofibroblasts, ED1+ macrophages, and possibly neutrophils) and PAI-1 are involved in the progression of tubulointerstitial scarring.

Flow cytometric immunodissection of the human nephron in vivo and in vitro.

In the present article, we show that flow cytometric immunodissection of cells immediately following their preparation from a tumor nephrectomy specimen is an accurate way of obtaining pure human primary cultures of proximal convoluted tubule origin, proximal straight tubule origin, distal tubular origin and/or collecting duct origin. By studying the expression of a panel of cell surface markers in these purified cultures, we could identify a number of markers that retain their lineage specificity in vitro. Using these appropriate stable markers, flow cytometry provides a simple yet accurate way of determining cell composition in previously unsorted (mixed type) tubular epithelial cultures in terms of proximal versus distal tubule/collecting duct subpopulations. Both subpopulations in mixed type cultures are shown to retain functional characteristics of their in vivo counterparts (glucose uptake, hormonal stimulation of adenylate cyclase) as well as cell type-specific response patterns (such as inducibility of cell adhesion and histocompatibility molecules), indicating the usefulness of studying cell responses in vitro in a cell-type-dependent way. Finally we illustrate that multi-parameter flow cytometry is a powerful tool for assessing constitutive characteristics of and/or responses by the distinct cell subpopulations present in mixed type cultures.

Inhibition of the matrix metalloproteinase system in a rat model of chronic cyclosporine nephropathy.

BACKGROUND: Chronic cyclosporine A (CsA)-induced nephropathy is histologically characterized by tubular lesions, the interstitial recruitment of inflammatory cells, arteriolopathy and focal interstitial fibrosis. Recent studies show that the intrarenal inhibition of matrix degradation and recruitment of monocytes/ macrophages into the kidney plays a critical role in the development of renal interstitial fibrosis. METHODS: We examined the expression of components of the matrix metalloproteinase (MMP) system and plasminogen activator inhibitor type-1 (PAI-1) in kidneys from rats injected daily s.c. during three weeks with CsA (10, 15 or 20 mg CsA/kg body wt) or vehicle solution. RESULTS: In all CsA-treated rats, serum creatinine levels were significantly elevated compared to control levels. The extent of CsA-induced atrophy was not influenced by the dosage during a three-week CsA treatment. The administration of CsA did not significantly increase total cortical interstitial collagen deposition, whereas alpha-smooth muscle actin expression was significantly increased in all CsA-treated rats. Analysis of the different subpopulations of inflammatory cells recruited into the chronically injured kidney revealed a marked influx of macrophages into fibrotic cortical foci of CsA-treated rats. The number of cortical macrophages was highest in the group receiving the highest CsA dose. PAI-1 antigen, present in proximal tubular lysosomes in kidneys from all experimental groups, stained very intensely in atrophic tubules in CsA-treated rats. Both stromelysin and interstitial collagenase mRNA were expressed in the kidneys of control rats, but their message transcription remained unaltered after CsA treatment. In contrast, the expression of tissue inhibitor of matrix metalloproteinase type 1 (TIMP-1) was significantly increased after CsA treatment. TIMP-1 mRNA was undetectable in renal sections from sodium-depleted vehicle-treated animals using the in situ hybridization (ISH) technique. ISH of selected renal sections of CsA-treated rats identified the cells responsible for the increased TIMP-1 message transcription after CsA administration, mainly as interstitial cells and also as visceral and parietal epithelial cells. CONCLUSIONS: These results suggest that the locally increased expression of TIMP-1 rather than a decrease of matrix metalloprotease expression, contributes to the development of CsA-induced focal interstitial fibrosis in the rat.

Strontium causes osteomalacia in chronic renal failure rats.

BACKGROUND: We recently reported an association between increased bone strontium (Sr) levels and osteomalacia in dialysis patients. METHODS: To delineate whether or not Sr acts as a causal factor in the development of osteomalacia, we devised the following study: four groups of chronic renal failure (CRF) rats were given Sr, aluminum (Al), both of these compounds or none of the elements (controls). RESULTS: Administration of Sr and/or A1 resulted in increased bone levels of the respective elements. Histological examination revealed impairment of mineralization in the Sr group and to a lesser extent in the Al group as compared to the control group. There was also a significant increase in osteoid area in the Sr group, but not in the Al group. No differences in bone surface or erodic perimeter were noted between the various study groups. Histochemically, Sr could be localized in calcified bone, mainly in new bone close to the osteoid/calcification front, a critical site of bone mineralization. Histochemical findings were confirmed by electron probe X-ray microanalysis. CONCLUSIONS: These findings indicate that Sr accumulation in chronic renal failure rats resulted in the development of osteomalacic lesions, in contrast to the Al group where adynamic bone disease was induced in the present set-up. Further studies are required to define the mechanism by which way Sr causes osteomalacia in chronic renal failure rats.

Immunodissection of the human proximal nephron: flow sorting of S1S2S3, S1S2 and S3 proximal tubular cells.

We report on the use of several proximal tubular cell (PTC) surface markets and corresponding antibodies in fluorescence-activated cell sorting (FACS), and their ability to identify and flow sort cells of defined proximal tubular origin (S1S2S3) or of defined proximal subsegmental origin (S1S2 only/S3 only). We tested monoclonal/polyclonal antibodies directed against five different surface peptidases [leucine aminopeptidase (LAP), neutral endopeptidase 24.11 (NEP), dipeptidyl peptidase IV (DPPIV), aminopeptidase A (APA) and gamma-glutamyl transferase (gamma-GT)], the S3 segment-specific marker intestinal type alkaline phosphatase (iAP) and an S1S2 marker (TN20-antigen), originally proposed as a surface marker for interstitial fibroblasts. Segmental (proximal tubular vs. distal tubular) and proximal subsegmental (S1S2 vs. S3) expression of all five surface peptidases and TN20 antigen were first assessed by comparing immunohistochemical staining on normal human kidney tissue with staining for well-known segment-specific differentiation markers (intestinal type alkaline phosphatase, Tamm-Horsfall protein) on adjacent sections. All five peptidases were found to be expressed to a certain degree in all subsegments (S1 S2 and S3) of the proximal nephron, whereas expression was never seen in the more distal parts of the nephron. Flow cytometry was performed on cells obtained following gradient purification of collagenase-digested human renal tissue. Labeling cells for expression of LAP, NEP or DPPIV resulted in high yields of specifically labeled PTC (S1S2S3 origin). Labeling with anti-LAP resulted in the clearest distinction between positive and negative cell subpopulations, and therefore LAP was considered the best PTC marker for use in FACS. iAP histochemical staining on sorted cells showed that flow sorting with monoclonal antibody (moAb) 250 (anti-intestinal type alkaline phosphatase) allowed sorting of S3 cells with > 90% purity. Likewise, moAb TN20 enabled us to obtain a highly purified S1S2 population as confirmed by the absence of iAP on sorted cells.

Cholesterol feeding accentuates the cyclosporine-induced elevation of renal plasminogen activator inhibitor type 1.

Long-term cyclosporine (CsA) therapy is accompanied by the occurrence of hypercholesterolemia and renal interstitial fibrosis. The present study investigates the effect of dietary cholesterol on CsA-induced lipid disturbances in the rat and on CsA nephrotoxicity. Since plasminogen activator inhibitor type 1 (PAI-1) is a major inhibitor of matrix degradation and elevated plasma PAI-1 levels are reported to be associated with increased low-density lipoprotein (LDL) cholesterol, PAI-1 was examined in the kidneys of rats fed a sodium-deficient diet, with or without cholesterol. After nine weeks, both diet groups were subdivided into a CsA-treated group and a vehicle-treated group. Although cholesterol feeding significantly aggravated CsA-induced renal function impairment, CsA-induced histological lesions were comparable in both diet groups. Cholesterol feeding significantly decreased high-density lipoprotein (HDL) cholesterol irrespective of the treatment, while CsA treatment significantly elevated serum triglycerides irrespective of the diet. Cholesterol feeding alone did not increase the number of infiltrating cells in the renal interstitium. In contrast, in both diet groups CsA treatment caused a significant influx of macrophages, while combined treatment with CsA and cholesterol additionally elevated the number of T-helper cells in the cortex. In all rats, PAI-1 immunostaining was found mainly in intracellular vesicles (lysosomes) in proximal tubules, which stained most intensely in fibrotic areas of kidneys from CsA-treated rats. Cholesterol feeding enhanced the CsA-induced elevation of renal PAI-1 immunostaining to a significant level. These results show that, although serum creatinine, PAI-1 staining and T cell influx were significantly increased in the cholesterol-fed CsA-treated group compared to the other groups, renal CsA-induced histological lesions were not influenced by cholesterol feeding after short-term (3 weeks) CsA administration. To what extent the more pronounced proximal tubular PAI-1 (inhibitor of matrix degradation) immunostaining in fibrotic areas in the cortex of cholesterol-fed CsA-treated rats contributes to the progression of CsA-induced renal fibrosis remains to be determined.

Selective depletion of CD8-positive leukocytes does not alter mercuric chloride induced acute renal failure in the rat.

The process of injury and regeneration in different models of acute renal failure is accompanied by the transient interstitial accumulation of mononuclear leukocytes. The relationship between these accumulated cells and the onset and progression of the regeneration process resulting in the complete functional and morphological recovery is still a matter of debate. In this process cell subsets may either be selectively important or combine to a communicative network, signalling the cells at the site of injury. In a first trial to investigate this hypothesis, the CD8-positive subset of leukocytes, consisting mainly of cytotoxic and suppressor T lymphocytes and to a lesser extent of natural killer cells, was depleted in vivo in rats by means of a monoclonal antibody directed against CD8. Although the depletion obtained evidently prevented the infiltration of these cells into the renal interstitium, it could not influence neither the development nor the resolution of renal insufficiency in response to mercuric chloride administration as compared with control animals who had received an irrelevant isotype-matched monoclonal antibody. The extent of renal damage was unaffected as were onset and duration of renal epithelial cell proliferation. Consequently, these data do not support a major role for the CD8-positive cell subset per se in the development of acute nephrotoxic injury and subsequent regeneration.

Stage- and segment-specific expression of cell-adhesion molecules N-CAM, A-CAM, and L-CAM in the kidney.

CAM expression was investigated immunohistochemically in tissue sections and in pure cultures of human proximal and distal tubular cells. In the fetal kidney, N-CAM immunoreactivity was detected in the non-induced and condensing metanephrogenic mesenchyme, and in all stages until the S-shaped bodies. A-CAM (N-cadherin) first appeared in the non-induced mesenchyme and remained present thereafter. Its expression became exclusively associated with the lower limb of the S-shaped bodies and the developing proximal tubule. In contrast, L-CAM (E-cadherin; uvomorulin) staining was observed in the fetal collecting duct, the upper limb of the S-shaped bodies, and the developing distal tubule. This segment-specific expression of A-CAM and L-CAM in the early developing nephron was maintained in the adult kidney: A-CAM staining was restricted to adherens junctions in the proximal tubule and thin limb, whereas L-CAM was expressed in Bowman's capsule and in all tubular segments except the proximal convoluted and straight tubule. Also after in vitro culture, A-CAM expression was an exclusive property of proximal tubular cells, while L-CAM was confined to distal tubular cells. In conclusion, each major subdivision of the fetal and adult nephron displays a characteristic combination of L-CAM and A-CAM, suggesting that they may be the basis of segmental differentiation and border formation between adjacent nephron segments.

Radiolocalisation and imaging of stably HPLAP-transfected MO4 tumours with monoclonal antibodies and fragments.

Immunotargeting of PLAP-expressing tumours was studied for two radioiodinated, highly specific anti-PLAP monoclonal antibodies, 7E8 and 17E3, differing 10-fold in affinity, as well as for 7E8 F(ab')2 fragments. An anti-CEA monoclonal antibody or anti-CD3 F(ab')2 fragments were used as controls. Specific and non-specific targeting was examined in nude mice simultaneously grafted with PLAP-positive tumours derived from MO4 1-4 cells, and CEA-positive tumours, derived from 5583-S cells. Results indicated that (1) MO4 1-4 tumours, with a stable expression of PLAP on the plasma membrane, represent a useful new in vivo model for immunodirected tumour targeting; (2) differences in antibody affinity for PLAP in vitro are not reflected in antibody avidity for tumour cells in vivo; and (3) excellent selective and specific localisation of the PLAP-positive tumours is achieved when 7E8 F(ab')2 fragments are used. The high tumour/blood ratios (10.7 +/- 3.9 at 46 h after injection) were due to a much faster blood clearance of 7E8 F(ab')2 fragments. At this time point, the mean tumour/non-tumour tissue ratio was as high as 34.5, and the mean specific localisation index was 29.0. As expected, the F(ab')2 fragments provided high tumour imaging efficiency on gamma camera recording. These data imply important potentials of the PLAP/anti-PLAP system for immunolocalisation and therapy in patients, but also emphasise that in vitro criteria alone are not reflected in in vivo tumour localisation capacities of antibodies.

Occurrence of the mucinous differentiation antigen CA125 in genital tract and conductive airway epithelia of diverse mammalian species (rabbit, dog, monkey).

CA125 is a human tumor-associated antigen of coelomic epithelial origin. In the present study, immunohistochemical analysis of normal rabbit, dog, and monkey tissues using monoclonal antibody OC125, revealed that in these animals positive staining for CA125 is found in all tissues that produce this mucin-like glycoprotein in man, i.e., the peritoneal and pleural mesothelium, the different Müllerian-duct-derived epithelia of the female genital tract, and the epithelium of trachea, bronchi, bronchioli, and mucoserous respiratory glands; CA125 was also detected in some ductal and acinar cells of the dog mammary gland. Without trypsin treatment of sections, staining was predominantly localized on the apical cell surface of all mentioned cell types. After treatment, mucin droplets inside respiratory mucous cells were also positively stained. In all cases, staining was associated with material positive for periodic acid-Schiff (PAS) and Alcian blue. In rats, its presence could not be demonstrated. Our results show that the CA125 epitope is not restricted to man and that its expression throughout different animal species is associated with well-defined tissue compartments. The expression of the mucous differentiation antigen CA125 in several common laboratory animals provides new opportunities for the experimental study of its biological significance.

Tumor markers in the human ovary and its neoplasms. A comparative immunohistochemical study.

The incidence and histologic characteristics of the expression of placental alkaline phosphatase (PLAP) in ovarian tumors was compared with that of five other tumor antigens. Three monoclonal antibodies were used for the specific localization of PLAP. PLAP was present in some sex cord cells of the 13-16-week fetal ovary, probably germ cells. In normal ovaries, all antigens except carcinoembryonic antigen (CEA) were frequently found in inclusion cysts; the germinal epithelium was positive only for cancer antigen 125 (CA 125). The frequency and extent of PLAP expression in nonmucinous carcinomas was higher than observed for CA 19-9 and CEA, but was lower than for CA 125 and human milk fat globule antigen. Serous tumors had the highest PLAP expression, followed by endometrioid and poorly differentiated adenocarcinomas, and some other tumors. PLAP was predominantly membranous; its histologic distribution was in general heterogeneous. Different antibodies to PLAP gave different staining intensities in some tumors, but the staining patterns were always qualitatively identical.