Impaired placental neovascularization in mice with pregnancy-associated hypertension.

Preeclampsia is a serious disorder that may result in severe morbidity and mortality for mother and fetus, and it is thought that the placental dysfunction is important in the pathogenesis of preeclampsia. As the model of preeclampsia, we previously generated a transgenic mouse model that developed pregnancy-associated hypertension (PAH) by mating females expressing human angiotensinogen with males expressing human renin. In PAH mice, maternal blood pressure started to rise from days 12 to 13 of gestation (E12-13) to term (E19-20), which is accompanied by the fetal intrauterine growth retardation and systemic maternal disorders including proteinuria and convulsion. To understand the pathology of the complications in PAH mice that overlap with those in human preeclampsia, we analyzed the PAH placenta sequentially from the onset of hypertension to the term of delivery. In PAH placenta, histological analysis revealed that the microvessel densities of fetal vasculature at term were significantly lower than those of normal placenta, and the majority of terminal vessels of PAH placenta were lacking for pericytes and basement membrane. The interaction between fetal vasculature and maternal blood canal at labyrinth of PAH placenta was morphologically distorted, and the expression patterns of key molecules in neovascularization of PAH placenta were distinct from those of normal placenta during pregnancy. In addition, maternal plasma level of soluble form of vascular endothelial growth factor receptor-1 (sVEGFR-1) was significantly increased in PAH at E19. Furthermore, in uteroplacental site, in situ proteolytic activity of PAH mice was suppressed from E16 to term compared to that of normal pregnancy, and the expression of matrix metalloproteinase-2 mRNA was strikingly downregulated at E16 in PAH mice. Collective data suggest that the impairments of fetoplacental neovascularization and uteroplacental remodeling contribute to the development of complications in PAH.

Pericellular activation of proMMP-7 (promatrilysin-1) through interaction with CD151.

Matrix metalloproteinase-7 (MMP-7) (also known as matrilysin-1) is secreted as a proenzyme (proMMP-7) and plays a key role in the degradation of various extracellular matrix (ECM) and non-ECM molecules after activation. To identify the binding proteins related to proMMP-7 activation, a human lung cDNA library was screened by yeast two-hybrid system using proMMP-7 as bait. We identified a candidate molecule CD151, which is a member of the transmembrane 4 superfamily. Complex formation of proMMP-7 with CD151 was demonstrated by immunoprecipitation of the molecules from CaR-1 cells, a human rectal carcinoma cell line, expressing both proMMP-7 and CD151, and CD151 stable transfectants incubated with proMMP-7. Yeast two-hybrid assays using deletion mutants of proMMP-7 and CD151 suggested an interaction between the propeptide of proMMP-7 and the COOH-terminal extracellular loop of CD151. The binding activity of (125)I-labeled proMMP-7 to CD151 on the cell membranes was shown with CD151 stable transfectants. Laser-scanning confocal microscopy demonstrated that proMMP-7 colocalizes with CD151 on the cell membranes of CD151 stable transfectants and CaR-1 cells. In situ zymography using crosslinked carboxymethylated transferrin, a substrate of MMP-7, demonstrated proteinase activity on and around CD151 stable transfectants and CaR-1 cells, while the activity was abolished by their treatment with MMP inhibitors, anti-MMP-7 antibody or anti-CD151 antibody. In human lung adenocarcinoma tissues, colocalization of MMP-7 and CD151 was demonstrated on the carcinoma cells. Metalloproteinase activity was present in these tissues and could be inhibited by antibodies to MMP-7 or CD151. These data demonstrate for the first time that proMMP-7 is captured and activated on the cell membranes through interaction with CD151, and suggest the possibility that similar to the MT1-MMP/MMP-2 system, MMP-7 is involved in the pericellular activation mechanism mediated by CD151, a crucial step in proteolysis on the cell membranes under various pathophysiological conditions including cancer invasion and metastasis.

Development of in situ zymography to localize active matrix metalloproteinase-7 (matrilysin-1).

Matrix metalloproteinase-7 (MMP-7) is upregulated during carcinogenesis and its expression correlates with metastasis of human endometrial and gastrointestinal carcinomas. In the present study, we have developed a new method to localize the activity of MMP-7 within tissues. Polyethylene terephthalate films were uniformly coated with crosslinked carboxymethylated transferrin (CCm-Tf) as a substrate and incubated with frozen tissue sections mounted on the films. CCm-Tf on the films was degraded selectively by MMP-7, but showed little or no susceptibility to MMP-1, -2, -3, -9, or -13; MT1-MMP; MT3-MMP; or ADAMTS4. Although some serine proteinases such as elastase also digested CCm-Tf, CCm-Tf films impregnated with serine proteinase inhibitors prevented the digestion. When frozen sections of human endometrial carcinoma and lung carcinoma tissues were incubated on CCm-Tf films or those treated with proteinase inhibitors, the activity was detected in the carcinoma cell nests, where MMP-7 was immunolocalized. The present in situ zymography using CCm-Tf may be a useful method to analyze the functions of MMP-7 in pathophysiological conditions.

Early acquisition of gelatinolytic activity in carcinogenesis of the uterine cervix.

Film in situ zymography is a newly developed technique for detecting in situ gelatinolytic activity. Using the film in situ zymography method to stamp preparations, we evaluated the gelatinolytic activity in early stage cervical neoplasia and invasive squamous cell carcinoma. To determine the sensitivity of film in situ zymography for detecting gelatinase expression, slides made from stamps of 50 specimens resected from the uterine cervix, including early invasive carcinoma (FIGO Ia1 and Ib1) and cervical intraepithelial neoplasia (CIN) were examined by film in situ zymography. The specimens were also examined immunohistochemically with regard to mitotic activity and gelatinase expression. Gelatinolytic activity was subdivided into two patterns, the homogeneous pattern and the heterogeneous pattern. The homogeneous pattern consisted of circumscribed areas around atypical cell clusters; these areas were composed of homogenously digested full-thickness collagen, whereas the heterogeneous pattern consisted of spottily digested areas of superficial collagen around atypical cell clusters. All invasive carcinomas (8/8 cases) and carcinoma in situ (14/14 cases) were positive for gelatinolytic activity, and 33.3%(5/15 cases) of the specimens of CIN-1, CIN-2, and severe dysplasia were also positive. All invasive carcinomas and 6 of 14 carcinoma in situ (43%) showed homogenous pattern, and the other positive specimens showed heterogenous pattern. The MIB-1 index was 33.8% in invasive carcinoma, increasing stepwise from dysplasia to carcinoma. Matrix metalloproteinase-2 immunostaining was positive in 4 of 8 cases of invasive carcinoma and generally stained the stromal area around the tumor nest. These results indicated that matrix metalloproteinases are functionally activated even in carcinoma in situ and in cervical intraepithelial neoplasia of the uterine cervix not showing invasive growth histologically. Film in situ zymography can detect with sensitivity the invasive potential of carcinoma in situ and cervical intraepithelial neoplasia. An analysis combining cytological examination and film in situ zymography is a potentially useful tool for estimating invasive activity.

Monocytes may promote myofibroblast accumulation and apoptosis in Alport renal fibrosis.

BACKGROUND: In interstitial fibrosis, monocytes and myofibroblasts have been directly implicated in scarring, apoptosis, and tissue necrosis. While much has been done to explore the role of these cell types individually in fibrosis, the interactive dependency of monocytes and myofibroblasts has been only marginally explored. METHODS: Alport mice were treated or not with a soluble receptor inhibitor for transforming growth factor-beta 1 (TGF-beta 1), which was previously shown to inhibit the accumulation of myofibroblasts, but not monocytes, in the tubulointerstitium. Kidneys were examined for fibrosis using several matrix markers, TGF-beta 1 mRNA expression by in situ hybridization, apoptosis using the terminal deoxynucleotidyl transferase-mediated uridine triphosphate nick end labeling (TUNEL) assay, expression of matrix metalloproteinases (MMPs) and tissue inhibitors of metalloproteinases (TIMPS) by dual immunofluorescence microscopy, MMP activity by gelatin and in situ zymography, MMP mRNA expression by reverse transcription-polymerase chain reaction (RT-PCR), and basement membrane degradation by dual immunofluorescence confocal microscopy and electron microscopy. RESULTS: Treated mice showed a markedly reduced accumulation of matrix proteins. Tissue monocytes express TGF-beta 1 mRNA, and TGF-beta 1 is required for myofibroblast accumulation. The number of apoptotic cells was not influenced by TGF-beta 1 inhibition. Monocytes express MMP-2, MMP-9, TIMP-2, and TIMP-3. MMP activity and mRNA expression is equally up regulated in treated and untreated Alport mice. Tubular basement membranes (TBM) around clusters of monocytes are notably degraded. TGF-beta 1 inhibition does not extend the life of Alport mice. CONCLUSION: These studies demonstrate that monocytes may influence myofibroblast accumulation via TGF-beta1, and that monocytes, and not myofibroblasts, are associated with tubular atrophy in Alport mice. Elevated MMP expression and activity is associated with TBM destruction near monocytes clusters, suggesting an anoikis mechanism may contribute to apoptosis in this model.

Vascular tissue fragility assessed by a new double stain method.

Although matrix metalloproteinases (MMPs) are known to be involved in the development of atherosclerosis and the instability of atheromatous plaques, much remains to be learned about their roles at the tissue level. To help clarify this area, we established a new double staining method using film in situ zymography and immunohistochemistry. Using this technique, a comprehensive analysis of the gelatinolytic activity in human vessel tissue demonstrated that gelatinolytic activity is enhanced in the shoulder region and fibrous cap at superficial areas of the atheromatous plaque in the presence of thrombolysis. Enzyme assay clarified high activity in the superficial area (7.50 +/- 5.04 U/mg weight; P < 0.001). Gelatin zymography also indicated that addition of the antiplatelet agent, trapidil, alters the amount of secretion of MMP-2 and MMP-9 and their activation ratio. This novel approach to detect the activity of gelatinases in resected tissues may aid in the selection of optimal treatment of individual patients.

Gelatinolytic activity of matrix metalloproteinase in lung cancer studied using film in situ zymography stamp method.

In this study, we investigated activity of matrix metalloproteinase (MMP) of lung cancer by newly developed film in situ zymography (FIZ) stamp method, which allows visual localization of gelatinolytic activity within the cut surface of a tumor. We performed FIZ stamp method and conventional gelatin zymography in 39 resected specimen of lung cancer. The degree of gelatinolytic activity was scored (FIZ score) and correlated with the clinicopathological factors of the tumor. FIZ score of normal lung was very low. Lung cancer tissue had consistently higher FIZ score than the matched normal lung tissue. There were statistically significant differences in the FIZ score according to the pathological stage (P = 0.0015), nodal status (P = 0.0007) and lymphatic invasion (P = 0.0004). Direct correlation was observed between the FIZ score and MMP-2 activity (rho = 0.568, P = 0.0030) as quantitated using conventional gelatin zymography. MMP-2 may play an important role in the lymphatic invasion of lung cancer. FIZ stamp method may be a simple and useful diagnostic aid for the presence of cancer cells in the resected specimen.

A quantitative evaluation of active gelatinolytic sites in uterine endometrioid adenocarcinoma using film in situ zymography: association of stronger gelatinolysis with myometrial invasion.

Collagen matrix degradation by malignant tumor cells plays an essential role in the process of tumor invasion and metastasis. The purpose of this study was to detect in situ gelatinase activity in endometrioid adenocarcinomas of the uterine corpus. In order to carry out quantitative evaluation, autoexposure time (AET) on gelatin-coated film (film in situ zymography: FIZ) was measured. The gelatinase activity was located primarily within cancers and was prominently suppressed by the addition of a chelating agent to the film. This suggests that matrix metalloproteinases (MMPs) play an important role in the gelatinase activity. The gelatinase activity in the normal endometrium is almost negligible, despite positive immunoreactivity for MMP-2 and -9. Tumor tissues that had invaded more than half of the myometrium showed significantly higher activity than those that had invaded less than half. There was no significant difference in gelatinase activity among tumor stages, grades, vessel invasion or immunoreactivity for MMPs, with the exception that stage 2b cancers showed higher activity than stage 1a. The study suggested that the level of MMP-mediated gelatinolysis is an important factor for myometrial invasion in uterine endometrioid adenocarcinoma. Thus, a quantitative assessment of active gelatinolysis using FIZ and AET should be a useful tool in evaluating in situ matriolytic activity in local myometrial invasion by uterine endometrioid adenocarcinoma.