Folker E. Franke

Cellular Distribution of Angiotensin-Converting Enzyme After Myocardial Infarction

We studied the cellular distribution of angiotensin-converting enzyme (ACE) in the heart related to the cell types involved in left ventricular repair and remodeling before and after myocardial infarction by immunohistochemical techniques using monoclonal and polyclonal antibodies. In noninfarcted myocardium of both human and rat, ACE expression was confined to endothelial cells and subendocardial cell layers of the aortic valve. ACE was prominent in endothelia of small arteries and arterioles, whereas only half the coronary capillaries were immunoreactive and venous vessels were almost completely devoid of the enzyme. In a rat model of myocardial infarction, ACE distribution was determined 1, 3, and 7 days and 2, 3, and 6 weeks after coronary occlusion. Three and 7 days after infarction, endothelial cells of sprouting capillaries and macrophages in the marginal zone of necrosis revealed ACE expression. In both human and rat with the onset of fibrosis, intense staining of the enzyme was found in the marginal zone of the repair tissue. In situ hybridization for collagen type I in the rat revealed that zones with high collagen content had almost no ACE immunoreactivity. Vascular smooth muscle cells and cardiomyocytes revealed no ACE expression throughout the study. We conclude that endothelial cells are the principal source for the expression of ACE after myocardial infarction. The observed induction of ACE with the onset of fibrosis suggests a role of this enzyme that is related to tissue repair and remodeling.

Squamous-cell carcinoma in mature cystic teratoma of the ovary: systematic review and analysis of published data

Up to a quarter of ovarian masses originate from germ cells, and many of these are mature cystic teratomas. The secondary development of malignancy is a rare but well-known phenomenon in patients with ovarian teratomas. Squamous-cell carcinoma accounts for 80% of secondary malignant transformations of ovarian teratomas. We aimed to do an up-to-date systematic review of this rare malignant transformation. 64 suitable studies provided information on 277 patients. Squamous-cell carcinoma in mature cystic teratoma was mainly found in women aged more than 50 years, with high concentrations of squamous-cell-carcinoma antigen and cancer antigen CA125, and with ovarian tumours more than 100 mm in size. Patients with FIGO stage Ia tumours had better survival than those with more advanced disease. Complete resection together with hysterectomy, bilateral salpingo-oophorectomy and lymphadenectomy for patients with advanced disease, followed by adjuvant chemotherapy with an alkylating drug was associated with higher survival, radiotherapy was not. We make proposals for investigation and treatment of this rare disorder.

Hobnail hemangiomas (targetoid hemosiderotic hemangiomas) are true lymphangiomas

Background:  Hobnail hemangioma (targetoid hemosiderotic hemangioma) is a small benign vascular tumor of the superficial and mid‐dermis. In contrast to its well‐characterized histology, it has been unclear whether this tumor arises from blood vessel endothelial cells (BECs) or lymphatic vessel endothelial cells (LECs).

Prognostic value of PIK3CA and phosphorylated AKT expression in ovarian cancer

Disrupted phosphatidylinositol 3-kinase (PI3K) activity and its effect on the downstream target AKT plays an important role in malignant diseases. Gain and/or amplification of PIK3CA gene, encoding the catalytic subunit of phosphatidylinositol 3-kinase (p110α) and its increased expression are associated with enhanced PI3K activity in ovarian cancer cell lines. In this study, ovarian carcinomas with documented clinical outcome were assessed for genetic aberrations at the 3q26.3 locus, including PIK3CA, by fluorescence in situ hybridization. PIK3CA amplification was evaluated by quantitative real-time PCR with respect to a control gene situated at 3q13. The expression of p110α, phosphorylated AKT (pAKT) and the proliferation marker Ki-67 were immunohistochemically investigated. PIK3CA amplification and Ki-67 index were strong predictors for an early tumour-associated death. p110α expression correlated with 3q26.3 gain and Ki-67 index but not with the patient outcome. No relationship could be observed between p110α and pAKT or between pAKT and disease outcome. It is interesting to note that cases with a nuclear pAKT immunoreactivity showed a trend of improved overall survival. Our results underline the prognostic significance of PIK3CA in ovarian carcinoma and argue against a simple linear model of PIK3CA gain/amplification followed by PI3K activation and consecutive AKT phosphorylation in ovarian carcinoma.

The expression of angiotensin-I converting enzyme in human atherosclerotic plaques is not related to the deletion/insertion polymorphism but to the risk of restenosis after coronary interventions

Plasma and tissue concentrations of the angiotensin-I converting enzyme (ACE) have been shown to be associated with the ACE insertion/deletion (I/D) polymorphism. The purpose of this study was to examine the relation of ACE levels in atherosclerotic plaques to the ACE I/D polymorphism and to restenosis after balloon angioplasty and directional atherectomy (DCA). The study included 104 patients who underwent DCA and received angiographic follow-up at 12 to 18 months. The amount of ACE protein in various morphologically defined plaque components (fibrous, atheromatous, and complicated lesions) of the atherectomy specimens was determined by qualitative and semiquantitative immunohistochemistry. ACE levels were related to the ACE genotype, to plaque morphology and to the risk of restenosis. Sequential staining revealed that pathologic ACE overexpression of the atherosclerotic lesions occurred in intimal smooth muscle cells, fibrocytes/fibroblasts and macrophage/foam cells. The ACE content of the whole plaques and of the single plaque components was not associated with the I/D polymorphism, but with restenosis after coronary interventions. In addition, ACE levels in the atherosclerotic lesions correlated with the severity of vessel wall damage. The ACE phenotype might serve as an indicator for the risk of restenosis after coronary interventions.

Tumour karyotype may be important in the prognosis of human neuroblastoma.

SummaryWhen comparing clinical and tumour cytogenetic data on 14 neuroblastoma patients in different stages of disease we found a high incidence of 1p abnormalities (12/12), homogeneously staining regions/double minutes (9/12) and 2p abnormalities (4/12) in 12 unresectable and metastatic tumours (clinical stages III and IV). In contrast, these features were absent in clinical stage II tumours (2/2) with good prognosis. The coincidence of 1p aberrations with poor outcome of disease will be discussed.

Isoforms of angiotensin I-converting enzyme in the development and differentiation of human testis and epididymis

Angiotensin I‐converting enzyme (ACE; CD143, Kininase II, EC 3.4.15.1) is known to be crucial for male fertility in animal models. We therefore studied its testicular (tACE) and somatic (sACE) isoforms in foetal and adult human testis and epididymis using monoclonal antibodies and cRNA probes. During spermatogenesis, tACE was found only in differentiating germ cells and was the only isoform within the seminiferous tubules of adult men. Although tACE mRNA was present in spermatocytes, tACE protein was initially found in post‐meiotic step 3 spermatids and increased markedly during further differentiation. The enzyme was strictly confined to the adluminal membrane site of elongating spermatids and was localized at the neck and midpiece region of released and ejaculated spermatozoa. In contrast, sACE was expressed heterogeneously in Leydig cells and endothelial cells of the testicular interstitium, and homogeneously along the luminal surface of epithelial cells lining the ductuli efferentes, corpus and cauda of epididymis, and vas deferens. The cell‐ and site‐restricted pattern of sACE corresponded to that found in foetal tissues except an additional and transient expression of sACE in foetal germ cells and foetal Sertoli cells. Our study documents for the first time in humans the regulation and unique cellular distribution of ACE isoforms during the ontogenesis of the lower male genital tract.

CD143 in the development of atherosclerosis

The expression of CD143 (angiotensin-I-converting enzyme, ACE) in cardiovascular diseases may be an important determinant of local angiotensin and kinin concentrations. Much of the experimental and clinical evidence suggests a crucial role for Ang II in fibrogenesis and the development of atherosclerosis. Therefore, we have studied the distribution of CD143 in atherosclerotic and non-atherosclerotic segments isolated from different parts of the human vascular tree, including aorta and coronary, carotid, brachial, renal, iliac and femoral arteries, and staged according to the AHA. Two hundred and thirty native and formalin-fixed specimens of 80 patients were analysed by sensitive APAAP-technique using ten different monoclonal and polyclonal antibodies to human CD143 and several controls. In non-atherosclerotic segments or intimal thickening, CD143 was found almost restricted to the endothelial cells of adventitial arterioles and small muscular arteries. In contrast, a striking accumulation of CD143 was detected in all early and advanced atherosclerotic lesions. This de-novo occurrence of CD143 within the intimal vascular wall was caused by spindle-shaped subendothelial cells with macrophagic/histocytic features, activated macrophages and foam cells. In addition, advanced lesions of atherosclerosis showed a marked neo-expression of CD143 in newly formed intimal microvessels. Hypocellular fibrotic plaques depleted in microvessels and macrophages showed only little CD143. The de-novo occurrence of CD143 was dependent on the stage of atherosclerosis but not on its particular localisation within the vascular system. This early and obligatory CD143 expression at an unusual vascular site may contribute to unusual tissue levels of angiotensins as indicated by co-localisation of immunoreactive Ang II. Thus, it may be an important pathogenetic step in the development of atherosclerosis and an established target for pharmacological prevention.

Heterogeneous distribution of angiotensin I-converting enzyme (CD143) in the human and rat vascular systems: vessel, organ and species specificity.

Angiotensin I-converting enzyme (kininase II, ACE, CD143) availability is a determinant of local angiotensin and kinin concentrations and physiological actions. Limited information is available on ACE synthesis in peripheral vascular beds. We studied the distribution of ACE along the human and rat vascular tree, and determined whether the enzyme was uniformly distributed in all endothelial cells (EC) or if differences occurred among vessels and organs. The distribution of ACE was assessed by using a panel of anti-human ACE monoclonal antibodies and serial sections of the entire vascular tree of humans. Comparison was made with other EC markers. EC of small muscular arteries and arterioles displayed high ACE immunoreactivity in all organs studied except the kidney, while EC of large arteries and of veins were poorly reactive or completely negative. Only 20% on average of capillary EC in each organ, including the heart, stained for ACE, with the remarkable exception of the lung and kidney. In the lung all capillary EC were labeled intensively for ACE, whereas in the kidney the entire vasculature was devoid of detectable enzyme. In contrast to the man, the rat showed homogeneous endothelial expression of ACE in all large and middle-sized arteries, and in veins, but in renal vessels ACE expression was reduced. This study documents a vessel, organ and species specific pattern of distribution of endothelial ACE. The markedly reduced ACE content of the renal vasculature may protect the renal circulation against excess angiotensin II formation and kinin depletion, and maintain high renal blood flow.

D2-40: A Reliable Marker in the Diagnosis of Pleural Mesothelioma

Objective: Malignant mesotheliomas of the pleura, peritoneum and pericardium can easily be confused with either metastatic adenocarcinomas or reactive pleural lesions. D2-40, a monoclonal antibody used as a marker for seminomatous germ cell tumours and lymphatic endothelial cells, was recently described in mesothelial cells and type I but not type II pneumocytes. Method: The immunoreactivities of D2-40 in 76 lung carcinomas of different histological types (adenocarcinomas, squamous cell, small cell, and bronchioloalveolar carcinomas) were compared with those of 36 pleural epithelioid and sarcomatoid mesotheliomas and 5 specimens of chronic pleuritis. Results: While all 18 analysed epithelioid mesotheliomas displayed a strong membranous immunostaining, 18 sarcomatoid mesotheliomas showed no, or a merely faint, cytoplasmic signal, comparable with fibroblasts in chronic pleuritis. Out of all analysed lung carcinomas, 49 showed no immunoreactivity for D2-40 (64%), while the other 27 (36%) showed a focal weak to moderate and only cytoplasmic signal. Conclusions: We regard D2-40 as a valid marker in the differential diagnosis of epithelioid mesotheliomas versus pulmonary adenocarcinomas. However, this marker may not properly label sarcomatoid mesotheliomas or distinguish them from reactive pleural lesions.