Cornelia Schulze scite author profile

The present investigation is concerned with the morphological changes observed in human testicular tissue following prolonged estrogen administration. Testicular material obtained from 11 transsexual patients who had been submitted to long-term estrogen treatment prior to sex-reversal surgery was studied by means of light- and electron microscopy. The testes of all patients examined present a more or less uniform appearance: There are narrow seminiferous cords surrounded by an extensively thickened lamina propria. They contain Sertoli cells and spermatogonia exclusively. There is no evidence of typical Leydig cells. The persisting spermatogonia show the characteristic features of pale type-A spermatogonia, whereas dark type-A spermatogonia are almost completely eliminated from the epithelium. In view of the fact that spermatogonia that survived radiotherapy and treatment with various noxious agents have recently been regarded as the stem cells of the human testis, it is suggested that also the majority of those spermatogonial types that are less sensitive to disturbances of the endocrine balance may consist of stem cells. The present results, therefore, corroborate the concept that the stem cells of the human testis may be derived from pale type-A spermatogonia or the variants of this cell type. Sertoli cells display two types of ovoid nuclei. In contrast to untreated material the nuclei lie adjacent to the basal lamina, and organelles and telolysosomes are confined to the apical cytoplasm. The apico-basal differentiation of mature cells, therefore, is not observed. Moreover, typical organelles and inclusions of mature cells are absent, as are the junctional specializations. Thus, Sertoli cells have transformed into immature cells, resembling precursors prior to puberty. Fibroblast-like cells in the interstitial tissue, which display strongly lobulated nuclei, a well-developed smooth endoplasmic reticulum, lipid droplets, and numerous inclusions are assumed to represent dedifferentiated Leydig cells. Since after estrogen treatment serum testosterone and gonadotropin levels are known to be reduced, it appears that the morphological changes correlate well with the endocrine status.

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Intermediate filaments in sertoli cells

Aumüller

Schulze

Viebahn

1992

Microscopy Res & Technique

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Using immunohistochemical techniques both at light and electron microscopic levels, the arrangement and distribution of intermediate filaments in Sertoli cells of normal testis (in rat and human), during pre- and postnatal development (in rabbit, rat, and mouse) and under experimental and pathological conditions (human, rat), have been studied and related to the pertinent literature. Intermediate filaments are centered around the nucleus, where they apparently terminate in the nuclear envelope providing a perinuclear stable core area. From this area they radiate to the plasma membranes; apically often a close association with microtubules is seen. Basally, direct contacts of the filaments with focal adhesions occur, while the relationship to the different junctions of Sertoli cells is only incompletely elucidated. In the rat (not in human) a group of filaments is closely associated with the ectoplasmic specializations surrounding the head of elongating spermatids. Both in rat and human, changes in cell shape during the spermatogenic cycle are associated with a redistribution of intermediate filaments. As inferred from in vitro studies reported in the literature, these changes are at least partly hormone-dependent (vimentin phosphorylation subsequent to FSH stimulation) and influenced by local factors (basal lamina, germ cells). Intermediate filaments, therefore, are suggested to be involved in the hormone-dependent mechanical integration of exogenous and endogenous cell shaping forces. They permit a cycle-dependent compartmentation of the Sertoli cell into a perinuclear stable zone and a peripheral trafficking zone with fluctuating shape. The latter is important with respect to the germ cell-supporting surface of the cell which seems to limit the spermatogenetic potential of the male gonad.

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The significance of alpha‐fetoprotein and other tumour markers in differential immunocytochemistry of primary liver tumours

Brumm

Schulze

Karina³

et al. 1989

Histopathology

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One hundred benign and malignant primary liver tumours were screened immunocytochemically for alpha-fetoprotein (AFP), alpha 1-antitrypsin, alpha-human chorionic gonadotropin, carcinoembryonic antigen (CEA), keratin and vimentin. Alpha-fetoprotein was found in 16/63 (24%) hepatocellular carcinomas and in two hepatoblastomas. When comparing tissue positivity for AFP with tumour differentiation, grade 1 hepatocellular carcinomas were found to be negative, while 21% of grade 2, 36% of grade 3 and 16% of grade 4, respectively, stained positively. Alpha-fetoprotein positive cells were present in 9/10 hepatocellular carcinomas with serum levels exceeding 5000 ng/ml, but were absent in 17 tumours with serum AFP levels below 5000 ng/ml. All tumours other than hepatocellular carcinomas and hepatoblastomas were AFP negative. Carcinoembryonic antigen was present in 72% of cholangiocarcinomas, but was demonstrated in only one hepatocellular carcinoma. This exception was a combined hepatocellular-cholangiocarcinoma in which CEA expression was restricted to the cholangiocellular part. Alpha 1-antitrypsin was found in 4/63 hepatocellular carcinomas, in 2/2 fibrolamellar carcinomas and in 2/18 cholangiocarcinomas. Alpha-human chorionic gonadotropin was detected in one hepatocellular carcinoma and was strongly expressed in both fibrolamellar carcinomas. Weak staining for keratin was seen in most tumours with hepatocellular differentiation. All cholangiocarcinomas, in contrast, were strongly labelled with the keratin antibody. Co-expression of keratin and vimentin was observed in seven poorly differentiated hepatocellular carcinomas and three cholangiocarcinomas as well as in the two hepatoblastomas. The findings suggest that AFP is a diagnostic but rather insensitive immunocytochemical marker for hepatocellular differentiation in malignant liver tumours; CEA and keratin may help in discriminating cholangiocarcinomas from hepatocellular carcinomas.

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Generalized Fatal Cowpox virus Infection in a Cat with Transmission to a Human Contact Case

Schulze¹,

Alex

Schirrmeier

et al. 2007

Zoonoses and Public Health

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A 4-month-old female domestic shorthair cat was infected by a virus of the Poxvirus family. The animal developed a severe pneumonia and generalized ulcerating lesions of the skin. Histologically, typical eosinophilic intracytoplasmic inclusion bodies indicative of an Orthopoxvirus (OPV) infection were present. The lung showed grey-white to haemorrhagic nodular lesions with a central zone of complete necrosis of alveolar and bronchial tissue. Electron microscopy from skin and lung nodules revealed typical square-shaped OPV particles. Cultivation of the virus on chorio-allantoic membranes of embryonated chicken eggs resulted in haemorrhagic plaques. Restriction enzyme analysis, PCR and sequencing of the D8L gene identified the OPV isolate as a typical Cowpox virus. It was transmitted by the cat to a human contact person who developed a local nodular dermatitis at the inoculation site in association with signs of general infection and had an increase of OPV-specific neutralizing antibodies in paired serum samples.

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