Aromatase in human lung carcinoma

Lung cancer is the leading cause of cancer mortality in both women and men worldwide but gender differences exist in their clinical and biological manifestations. In particular, among life time non-smoker, female are far more likely to develop lung carcinoma than male. Recent studies demonstrated that estrogens are synthesized in situ in both male and female lung cancers through aromatase, suggesting that sex steroid may contribute to the pathogenesis and development of lung carcinoma. In addition, human lung carcinomas have been recently demonstrated to be frequently associated with expression of estrogen receptors in both male and female patients and a lower expression of aromatase was reported to be associated with better prognosis. Preclinical studies further demonstrated that aromatase inhibitor (AI) suppressed the lung tumor growth both in vitro and in vivo. These findings all suggest a potential role of intratumoral aromatase in biological behavior of non-small cell lung cancer (NSCLC), the most common form of human lung malignancy. Therefore, AIs may become viable therapeutic options for disease management in NSCLC patients but further studies are definitely required to obtain a better understanding of the potential roles of intratumoral aromatase expression as a predictive biomarker for clinical outcome in these NSCLC patients.     

Aromatase activity in human ovarian cancer

Eighty-four tumor samples from 70 women with primary ovarian cancer were assayed for cytosol estrogen (ERc) and progestin (PRc) receptor concentrations and aromatase activity. In addition, 22 of the tumors were studied for their response to the aromatase inhibitor, 4-OH-androstenedione, in a soft agar clonogenic cell assay system. Although aromatase activity was detected in almost all of the primary tumors, this enzyme was barely detectable in the majority of metastatic tumor samples. There was no significant correlation between aromatase activity and either the ERc or PRc content of the tumors, or tumor grade. Of 12 tumors grown successfully in the soft agar culture system, only 1 showed a substantial (>50%) reduction in colony-forming efficiency after exposure to the aromatase inhibitor. These results suggest that local estrogen biosynthesis probably does not play an important role in the majority of epithelial ovarian tumors. However, there may be a small subset of estrogen receptor-positive tumors in which aromatase could provide a local growth stimulus.     

16-ene-steroids in the human testis

Incubation of human testicular homogenates with [4-¹⁴C]pregnenolone gave substantial amounts of an unknown metabolite within 1 min, reaching plateau values of 17–23% of total radioactivity added within 5 min. Mass spectrometry of the metabolite showed it to be identical to the boar sex pheromone precursor androsta-5,16-diene-3β-ol (ADL). In cell cultures the major source of ADL and its dehydrogenated metabolite androsta-4,16-diene-3-one (ADN) was the Leydig cell. In rat and monkey testicular homogenates 16-ene-synthetase activity, a prerequisite for the synthesis of ADL and ADN, was completely lacking, limiting the presence of 16-androstenes to boars and men. In contrast to boars, however, in the human testis no 5-reductase activity was found and consequently no 5-reduced-16-androstenes, e.g. androstenol (AL, musk like) and androstenone (AN, urine like), known sex pheromones in pigs. As both sex pheromones have been identified in urine, plasma, sweat and saliva of men and (especially hirsute) women we hypothesize that AL and AN are synthesized from ADL via ADN peripherically in tissues rich in 5-reductase, i.e. skin, axillary sweat glands and probably also the salivary glands. So far, there is some evidence that both sex pheromones may have similar functions in humans as in boars.     

Lectin binding in the human foetal testis

In the present study we have investigated the oligosaccharidic content of the glycoconjugates within the human foetal testis starting from its earliest differentiation phase (8, 10 and 12 weeks of gestation). To this purpose we have used a battery of six horseradish peroxidase-labelled lectins (SBA, PNA, WGA, UEAI, LTA and ConA). We have obtained a complete distributional map of the sugar residues of the glycoconjugates in the coelomic mesothelium, tunica albuginea, pre-Sertoli cells, pre-gonocytes, Leydig cells, basement membrane of the sex cords, interstitial tissue, mastocytes and endothelial cells of the capillary vessels. Since the beginning of the testis differentiation phase the cells of the coelomic mesothelium showed a large amount of sugar residues. In the pre-Sertoli cells and in the pre-gonocytes a role played as structural molecules by some oligosaccharides could be hypothesized. D-galactose-(beta1-->3)-N-acetyl-D-galactosamine, sialic acid, N-acetyl-D-glucosamine and alpha-D-mannose could be involved in inducing and maintaining the cellular activity of the Leydig cells.     

Aromatase expression and its localization in human breast cancer

Aromatization or in situ estrogen production by aromatase has been considered to play an important role in the development of human breast carcinoma. In the human breast, aromatase overexpression is observed in the stromal or interstitial cells of the carcinoma, especially at the sites of frank invasion and/or adipose tissue. Transplantation experiments in the nude mouse employing MCF-7 and/or SF-TY human fibroblast cell lines revealed that aromatase activity and expression were much higher in the tumour with MCF-7 and SF-TY than that with MCF-7 alone. Aromatase overexpression in human breast carcinoma tissue is considered to occur as a result of carcinomastromal cell interactions, i.e. paracrine communication between stromal and carcinoma cells. Aromatase overexpression is correlated with the malignant phenotype in the human breast, but not with stage, age, clinical stages, clinical course, or proliferative activity of breast carcinoma. Aromatase overexpression may be correlated with development, rather than the biological behaviour of breast malignancy. Aromatase overexpression is not necessarily correlated with expression of 17β-hydroxysteroid dehydrogenase type 1, which converts estrone to estradiol and estrogen receptor. Different mechanisms may be involved in the regulation of expression of these two important estrogen-metabolizing enzymes and estrogen receptor in human breast cancer. Aromatase overexpression in intratumoral stromal cells was much more frequently detected in male breast cancer than in female counterparts, which confers a growth advantage on cancer cells in a male hormonal environment with low serum estrogen levels.     

Aromatase and COX-2 expression in human breast cancers

We have investigated aromatase and the inducible cyclooxygenase COX-2 expression using immunocytochemistry in tumors of a series of patients with advanced breast cancer treated with aromatase inhibitors. Aromatase was expressed in 58/102 breast cancers. This is similar to the percentage previously reported for aromatase activity. Interestingly, aromatase was expressed in a variety of cell types, including tumor, stromal, adipose, and endothelial cells. Since prostaglandin E₂ is known to regulate aromatase gene expression and is the product of COX-2, an enzyme frequently overexpressed in tumors, immunocytochemistry was performed on the tissue sections using a polyclonal antibody to COX-2. Aromatase was strongly correlated (P<0.001) with COX-2 expression. These results suggest that PGE₂ produced by COX-2 in the tumor may be important in stimulating estrogen synthesis in the tumor and surrounding tissue. No correlation was observed between aromatase or COX-2 expression and the response of the patients to aromatase inhibitor treatment. However, only 13 patients responded. Nine of these patients were aromatase positive. Although similar to responses in other studies, this low response rate to second line treatment suggests that tumors of most patients were no longer sensitive to the effects of estrogen. Recent clinical studies suggest that greater responses occur when aromatase inhibitors are used as first line treatment. In the intratumoral aromatase mouse model, expression of aromatase in tumors is highly correlated with increased tumor growth. First line treatment with letrozole was effective in all animals treated and was more effective than tamoxifen in suppressing tumor growth. Letrozole was also effective in tumors failing to respond to tamoxifen, consistent with clinical findings. In addition, the duration of response was significantly longer with the aromatase inhibitor than with tamoxifen, suggesting that aromatase inhibitors may offer better control of tumor growth than this antiestrogen.     

Sertoli-germ cells interactions in the human testis.

In previous histoimmunochemical studies we reported that transferrin (TF) and insulin-like growth factor I (IGF-I) are present in the cytoplasm of the Sertoli cells of the adult human testis. Receptors for TF were found mainly in adluminal germ cells and type I receptors for IGF-I both in Sertoli and germ cells. Using electron microscopy, evidence of transfer of both TF and IGF-I from the Sertoli to the germ cells through a receptor-mediated endocytosis mechanism was also found. In this paper we report the results of the histoimmunochemical localization of alpha inhibin in the human fetal, prepubertal and adult testis. In 8- to 14-week-old fetal testes a positive immunostaining was found mainly in the interstitial cells, whereas no staining was found in the germ cords. In the prepubertal testis the immunostaining was present in the Sertoli cells but not in the interstitial cells. In the adult human testis the immunostaining was present not only in the Sertoli cells but also in the spermatocytes and in several Leydig cells. Using electron microscopy and immunogold labeling the presence of alpha inhibin immunoreactivity was found in the rough endoplasmic reticulum and in the Golgi cisternae of both Sertoli and Leydig cells. Moreover we found evidence of transfer of alpha inhibin from the Sertoli to the germ cells through receptor-mediated endocytosis.     

The human rete testis

Summary The human rete testis was examined with regard to 1) the number and distribution of entrances of seminiferous tubules, 2) the light microscopic topography and 3) details of the passages as revealed by scanning and transmission electron microscopy. In a newborn 1474 entrances were counted, approximately 50 % entering from the right and 50 % from the left of the central long axis. Three major subdivisions of the rete were distinguished and described: a septal (or interlobular) part represented by tubuli recti, a tunical (or mediastinal) part which is a true network of channels, and an extratesticular part characterized by dilatations (up to 3 mm wide) which we have called bullae retis. In SEM, cylindrical strands running from wall to wall in the tunical and extratesticular rete spaces are a prominent feature. We have called these chordae retis. They are covered by epithelium and are 5–40 m wide and 15 to more than 100 m long. They contain a peculiar tissue consisting of central myoid cells in a fibroelastic matrix. The smaller chordae are avascular. In the light of these findings the rete is interpreted as a highly complex myoelastic sponge. Its function is discussed.Supported in part by USPHS Grant HD-03752 and by a Senior Scientist Award from the Alexander von Humboldt-Stiftung which made the co-authorship possibleSupported by a grant from the Deutsche ForschungsgemeinschaftFor their kind support in supplying us with material, we are indebted to Dr. Janssen (Institut für Rechtsmedizin, Universität Hamburg), Dr. Mairose (Zentralkrankenhaus der Justizbehörde, Hamburg) and Dr. Hubman (Allgemeines Krankenhaus St. Georg, Hamburg). We thank Dr. Kaiser (Zoologisches Institut, Universität Hamburg) for his friendly, generous and competent help with the scanning electron microscopy. Ms. Joanna Davis gave invaluable help with the laborious reconstruction of the rete entrances     

Aromatase (estrogen synthetase) gene expression in human leukocytes

Extragonadal aromatization plays an important role in many physiological and pathological conditions. It has been found that incubation of the peripheral blood mononuclears in the RPMI-1640 medium with 10% fetal calf serum during 48 hrs is able to induce the aromatase gene expression. The latter did not occur in 11 samples of mononuclears of the intra-tissue leukocyte infiltration which finding needs further investigation. The data obtained suggest that the possibility of the aromatase gene induction in leukocytes is associated with the cellular fraction capable of the substrate adhesion.     

Distribution of gelsolin in human testis

Gelsolin, an actin-binding and severing protein present in many mammalian cells, was characterized in human testis. Although abundant in testicular extracts, gelsolin was not detected in purified spermatogenic cells by immunoblot analysis. Immunofluorescence studies of testis sections showed that gelsolin has two main localizations: peritubular cells and the seminiferous epithelium. In peritubular cells, gelsolin was present together with α-SM actin, in agreement with the myoid cell characteristics of these cells. In a large proportion of the tubules, gelsolin was found mainly, together with actin, in the apical part of the seminiferous epithelium. This localization of gelsolin also was observed in seminiferous tubules with a partial or complete absence of germinal cells, which evokes a presence of gelsolin at the apex of Sertoli cells. However, in normal testis, a complex pattern of gelsolin labeling was also present, mostly in the apical third of the epithelium, around cells or groups of cells, mainly spermatids, and, less frequently, in various other localizations from the apical to the basal part of the seminiferous epithelium. Taken together, these observations suggest that gelsolin may play different functions in the seminiferous epithelium: (1) regulation of the dynamic alterations of the actin cytoskeleton in the apical cytoplasm of Sertoli cells, and (2) modification of actin filaments assemblies in specific structures at germ cell-Sertoli cell contacts. Thereby, the actin-modulating properties of gelsolin are probably involved in reorganization of the seminiferous epithelium related to germ cell differentiation. Mol. Reprod. Dev. 48:63–70, 1997. © 1997 Wiley-Liss, Inc.     

Suproxide dismutase in human testis preparations

A protein fraction from human testis was structurally investigated. The main component of the fraction reported to contain inhibin-like activity was purified and analyzed by tryptic digestion. The peptides obtained identified the protein as an enzyme, superoxide dismutase, previously known to be present in seminal plasma. The results show that superoxide dismutase is a major enzyme, also of testicular material. They further demonstrate the importance of using pure fractions, and controls such as checks with structural analysis or synthetic peptides, in the work of elucidating the nature of inhibin and other hormonal peptides.     

Aromatase

Aromatase catalyzes the conversion of androgens to estrogens through a series of monooxygenations to achieve the 19-desmolation and aromatization of the neutral steroid ring-A structure. We have separated two forms of aromatase, a major (P2a) and a minor (P3) form, from human term placenta through solubilization and chromatography. Partially purified aromatase in each form was immunoaffinity chromatographed to give a single band (SDS-PAGE) cytochrome P-450 of 55 kDa, utilizing a mouse monoclonal anti-human placental aromatase cytochrome P-450 IgGi (MAb3-2C2) which is capable of suppressing placental aromatase activity. The purified cytochrome P-450 showed specific aromatase activity of 25-30 nmol/min per mg with Km of 20-30 nM for androstenedione on reconstitution with NADPH-cyt P-450 reductase and dilauroyl L-alpha-phosphatidylcholine. This one step represents a higher than 100-fold purification with maintenance of the same Km. The stability analysis showed a half-life of more than 5 yr for solubilized aromatase and 2 months for the aromatase cytochrome P-450 on storage at -90 degrees C. Contrary to the recent claim that estrogen biosynthesis by reconstituted human placental cytochrome P-450 is by trans-diaxial 1 alpha,2 beta-hydrogen elimination, all of our partially purified forms and reconstituted aromatase synthesized estrogens by cis-1 beta, 2 beta-hydrogen elimination. Use of purified aromatase and [19-3H3, 4-14C]androstenedione led us to discover a metabolic switching by aromatase to 2 beta-hydroxylation of androgen. Results of the MAb3-2C2 suppression of aromatase activity in different species and tissues including human, baboons, horses, cows, pigs and rats indicated the presence of various isozymes of aromatase.     

Fine structure of the human foetal testis

Summary Thirteen male human foetuses ranging in crown-rump length from 29 to 212 mm (ages 8–27 weeks) were studied. Four developmental phases are distinguished. 1. The predifferentiation phase (below 8 weeks): The interstitium contains only undifferentiated mesenchymal cells. 2. The differentiation phase (8–14 weeks): Leydig cells develop and gradually fill the space between the germ cords. 3. The maturity phase (14–18 weeks): The interstitium occupies more than one half of the total area in the testis sections and is filled with mature foetal Leydig cells. 4. The involution phase (18–40 weeks): Most of the Leydig cells gradually degenerate and disappear.The foetal Leydig cells are packed with tubular agranular endoplasmic reticulum (AER). Islets of parallel granular ER membranes and other organelles are embedded in the AER. The mitochondria vary in shape and form, the cristae being mainly tubular. Some mitochondria like organelles contain electron dense inclusions. Dark membrane bound bodies of variable form and resembling the Golgi cisternae are present in most cells. Reinke crystals are never found in the foetal cells. In degenerating Leydig cells the AER appears in vesicular form, membranous whorls are seen in some of them and the cell membrane seems to rupture finally, and cytoplasmic material protrudes outside the cells. The fine structure of the mature foetal Leydig cells is suggested to reflect signs of human chorionic gonadotrophin stimulation.This investigation was supported by the Damon Runyon Memorial Fund (DRG-940) and by the Sigrid Jusélius Foundation.     

SPAG4L在人类睾丸中的表达研究

目的:观察人类睾丸新基因SPAG4L在人类不同发育阶段睾丸及隐睾中的表达,为了解该基因在精子发生中的功能奠定基础;方法:收集流产胎儿、成年人、老年人及隐睾患者的睾丸组织,应用RT-PCR和组织原位杂交技术检测SPAG4L mRNA的表达;结果:RT-PCR和组织原位杂交技术检测结果发现,SPAG4L在胎儿睾丸中几乎检测不到,在成年及老年男性睾丸中均有高表达,主要在精母细胞和圆形精子细胞中表达;在隐睾患者的睾丸中,精母细胞大量凋亡,SPAG4L表达明显下调;结论:SPAG4L主要在精子发生减数分裂阶段表达,受生长发育调控,提示该基因可能在精子发生减数分裂阶段发挥着重要的生理功能.     

Immunohistochemical distribution of sulfhydryl oxidase in the human testis

Summary Sulfhydryl oxidase (SOx) is an enzyme that catalyzes the oxidation of sulfhydryl compounds. It is present in mitochondria of certain testicular cells at specific stages of functional activation. In the mature human testis moderate SOx immunoreactivity is found in Leydig cells, and lacking in Sertoli and in peritubular cells. The A_dark spermatogonia usually contain immuno-reactive mitochondria, while in A_pale spermatogonia immunoreactivity is mostly low. In stage V of spermatogenesis, A_pale spermatogonia were found containing immunoreactive material. Leptotene (stages IV and V) and zygotene (stage VI) primary spermatocytes display a moderate immunoreaction. It is strongest in pachytene spermatocytes of stages I–IV, decreases in stage V, and is low during diakinesis and in secondary spermatocytes. Late spermatids usually show a stronger immunoreactivity than early spermatids. At stage V of spermatogenesis the late spermatids contain only few immunoreactive particles. Spermatozoa are free of SOx-immunoreactive mitochondria. In residual bodies small amounts of SOx-immunoreactive particles are seen. Compared to rat and hamster testis, SOx immunoreactivity of the human testis is less clearly stage-dependent and it is not confined to certain germ cell stages. As deduced from the findings in patients with spermatogenic disorders, the SOx immunoreactivity of spermatogonia in human testis seems to be of diagnostic relevance.