Luigi Castagnetta

Gene Expression Profiling of Human Cancers

Abstract: DNA microarrays allow us to visualize simultaneously the expression of potentially all genes within a cell population or tissue sample—revealing the “transcriptome.” The analysis of this type of data is commonly called “gene expression profiling” (GEP) because it provides a comprehensive picture of the pattern of gene expression in a particular biological sample. For this reason microarrays are revolutionizing life sciences research and are leading to the development of novel and powerful methods for investigating cancer biology, classifying cancers, and predicting clinical outcome of cancers. Several recent high‐profile reports have revealed how clustering of GEP data can clearly identify clinically (and prognostically) important subtypes of cancer among patients considered by established clinicopathological criteria to have similar tumors. Accurate “prognostic signatures” can be obtained from GEP data, which represent relatively small numbers of genes. These signatures can be valuable in directing appropriate treatment and in predicting clinical outcome, and they generally outperform other systems based on clinical and histological criteria. In this paper the basic principles of DNA microarray technology and the different types of microarray platforms available will be introduced, and the power of the technique will be illustrated by reviewing some recent GEP studies on selected cancers, including a preliminary analysis of hepatocellular carcinoma from our Palermo laboratory. GEP is likely to be adopted in the future as a key decision‐making tool in the clinical arena. However, several issues relating to data analysis, reproducibility, cross‐comparability, validation, and cost need to be resolved before the technology can be adopted broadly in this context.

Endocrine End‐Points in Rheumatoid Arthritisa

ABSTRACT: Our previous studies are reviewed and at the same time preliminary experimental observation to the topic of endocrine end‐points in autoimmune disease is introduced. To this end, we have used rheumatoid arthritis (RA), including synovial fluids and primary cultures of synovial macrophages, as a model system in order to investigate (a) expression and subcellular localization of high‐affinity sites of steroid binding in immune effector cells; (b) steroid metabolic profiles in both male and female RA patients, as compared to healthy subjects; and (c) activities of key steroid enzymes that govern intratissue accumulation of sex hormones.

Heterogeneity of soluble and nuclear oestrogen receptor status of involved nodes in relation to primary breast cancer

Both soluble and nuclear oestrogen receptors were measured in at least two different portions of primary breast cancer and in concurrent metastatic tissue from axillary nodes. Oestrogen receptor (ER) status of involved nodes was found highly consistent with that of primary tumours. Of the 67 patients studied, 30 had metastatic nodes which contained both soluble and nuclear ER. Of these, 27 were associated with a primary cancer which also had both soluble and nuclear ER, determined in at least two separate parts of the primary cancer. Conversely, none of the completely negative primaries gave rise to fully receptor positive metastatic tissue. Surprisingly, 17 out of 20 heterogeneous primary tumours, i.e. those containing both receptor positive and negative components, generated receptor negative metastatic nodes. Moreover, in 7 of the 8 patients with N-2 stage nodal involvement, the metastatic disease had arisen from primaries which were either completely receptor negative or with a heterogeneous ER status. It is suggested that macroscopic heterogeneity of ER status in primary breast cancer is associated with poor prognosis.

Simple approach to measure metabolic pathways of steroids in living cells

A simple, rapid approach to the study of conversion rates and metabolic patterns of the steroids testosterone and estradiol is presented. It includes an optimized isocratic high-performance liquid chromatographic procedure in the reversed-phase mode and radioactive on-line detection. The purpose was to estimate the activity of key enzymes of steroid pathways, such as 17 beta-hydroxysteroid dehydrogenase and 5 alpha-reductase, in in vivo conditions. Using this system, we obtained good efficiency and linearity of radio detection, under continuous flow conditions. Sensitivity limits were of the order of 50 and 70 cpm for [3H]estradiol and [14C]estrone, respectively, even though the efficiency was quite dissimilar (17.3% versus 56.2%). The applicability of this approach to studies of steroid metabolic pathways in growing cancer cells in culture is illustrated with examples of the conversion rates of both testosterone and estradiol. The high reproducibility (coefficients of variation of 2.7 and 5.1% for 3H and 14C, respectively) and good extraction efficiency (ranging from 86 to 94%) indicate the feasibility and reliability of this approach.

Sex Steroids, Carcinogenesis, and Cancer Progression

Abstract: The relationship between sex steroids and cancer has been studied for more than a century. Using an original intact cell analysis, we investigated sex steroid metabolism in a panel of human cancer cell lines, either hormone responsive or unresponsive, originating from human breast, endometrium, and prostate. We found that highly divergent patterns of steroid metabolism exist and that the catalytic preference (predominantly reductive or oxidative) is strictly associated with the steroid receptor status of cells. We explored intratissue concentrations and profiles of estrogens in a set of human breast tumors as compared to normal mammary tissues, also in relation to their estrogen receptor status. In particular, we showed that, with hydroxyestrogens representing the majority of all tissue estrogens, concentrations of individual metabolites, as well as their ratios, significantly differ when comparing normal tissue with cancer tissues or when they are related to the overall survival of cancer patients.

A Role for Sex Steroids in Autoimmune Diseases

Abstract: In recent years there has been a continuingly increasing interest in novel research subjects, as yet poorly explored, either because they relate to aspects previously thought to be marginal with respect to classical fields of investigation, or because they require both specialized competence and intense cross‐talk by researchers from disparate areas. The potential interaction between immunity and cancer has generated a remarkable number of studies, including those related to the newly explored immune‐neuro‐endocrine system. In this paper, we review a few autoimmune diseases as examples of a mutual relationship between immune diseases and malignancies. We also review our previous studies on patients with rheumatoid arthritis (RA). In particular, aiming to define the hormone‐responsive or ‐sensitive status of synovial tissues and cells, we have inspected different endocrine end‐points, including (1) high‐ and low‐affinity sites of androgen and estrogen binding; (2) the activity of key enzymes of steroid metabolism; and (3) the hormonal profile of synovial fluids as an indication of local endocrine milieu. Overall, our data provide convincing evidence for synovial macrophage‐like cells and a subset of T lymphocytes to be considered as target cells for gonadal steroids. This provides a basis for developing new strategies for alternative treatments of RA and possibly unveils novel perspectives in both research and the clinic for other autoimmune diseases as well. In addition, the association of autoimmunity and cancer may disclose promising new avenues of research linking steroid hormones, the immune system, and malignant transformation.

Intercellular Communication and Human Prostate Carcinogenesis

Abstract: Gap‐junction‐mediated intercellular communication (GJIC) is required for completion of embryonic development, tissue homeostasis, and regulation of cell proliferation and death. Although, as emphasized in several reports, defects or disruption of GJIC may be important in carcinogenesis, the potential role of GJIC in the onset and progression of human prostate cancer remains ill‐defined. The gap junction channel‐forming connexins (Cx) comprise a multigene family of highly conserved proteins that are differentially expressed in a tissue‐ and development‐specific manner; changes in connexin expression are also commonly seen during cellular differentiation. However, when multiple connexins are concurrently expressed, gap junction channels may consist of more than one connexin species. This is important, because only certain pairings give rise to functional channels. In our studies, we investigated GJIC in a panel of both nontumorigenic (RWPE‐1) and malignant (RWPE‐2, LNCaP, DU‐145) human prostate epithelial cells, compared to a normal rat liver epithelial F344 (WB‐1) cell line, as it was found to be junctionally proficient. In addition, expression and regulation of Cx43 and Cx32 were also inspected using western blot analysis. The ability of hormones, antihormones, and the antihypertensive drug forskolin to restore GJIC in nontumorigenic and malignant human prostate epithelial cells was examined by the scrape‐loading/dye transfer (SL/DT) or fluorescence recovery after photobleaching (FRAP) methods using an Ultima laser cytometer. Results from both assays showed that neither nontumorigenic nor malignant prostate cells have functional GJIC. However, both estrone (E1) and forskolin (FK) induced a significant increase (4.4‐ and 2.8‐fold, respectively) in cell‐cell communication only in the RWPE‐1 cells. Interestingly, the use of Matrigel, a solubilized basement membrane, as substrate for cell attachment and growth resulted in the rescue of GJIC activity in RWPE‐1 cells, as revealed by the SL/DT method. Furthermore, E1 induced a twofold increase in connexin 43 (Cx43), whereas forskolin caused a 50% reduction in Cx32 expression in RWPE‐1 cells. These data suggest that agents that increase Cx43:Cx32 ratio may restore GJIC in junctionally deficient cells, providing a basis for the development of new strategies for the prevention and treatment of human prostate cancer.

Estrone conversion rates by human endometrial cancer cell lines

Studies on estrone metabolism by long term human endometrial cancer HEC-1A and Ishikawa cell lines are reported. These cell lines grow well in epithelial mono or plurilayer form, as previously reported. Ishikawa cells appear to be estrogen responsive whereas HEC-1A appear non responsive. In our experience Ishikawa cells show high affinity--low capacity estrogen binding sites in both soluble and nuclear fractions of the same range of ZR 75-1 and of MCF7, but HEC-1A cytosols gave Kd values in the order of 10(-8)-10(-9). These values are probably more representative of estrogen receptors of low affinity-high capacity (site II) and this is in agreement with previous results regarding their poor response to estrogens. These two different endometrial cancer cell lines exhibit at the same time, common and quite dissimilar metabolic patterns of estrogens. In fact, metabolic conversion studies carried out after 24th incubation at not far from physiological concentrations by using high pressure liquid chromatography in reverse phase mode plus on line radioactive detection showed: Both these well established cell lines are fast growing in culture with sufficient morphological or biochemical stability, at least during a limited number of passages and appear a useful material for studies on steroid metabolism. In both, estradiol (E2) and estrone (E1) were most part of converted products (more than 95%); negligible amounts of other radio-metabolites were observed. Quite different conversion rates of E1 to E2 have been shown by HEC-1A cells (6 times or more), with respect to Ishikawa.

Molecular expression of 17βhydroxysteroid dehydrogenase types in relation to their activity in intact human prostate cancer cells

In the present study we have inspected estrogen metabolism in cultured human prostate cancer cells (LNCaP, DU145, PC3), in relation to the expression of mRNAs for different 17 beta hydroxysteroid dehydrogenase (17 beta HSD) enzymes (from 1 to 4). Using an intact cell analysis, we have compared precursor degradation and product formation after incubation of cells with physiological amounts of radioactive E2 or estrone (E1) for 24-72 h and subsequent reverse-phase high performance liquid chromatography analysis. The LNCaP and DU145 cells only partly converted E2 to E1 (26 and 13% at 72 h, respectively), giving rise to an appreciable production of E2 from E1 (nearly 20% in all cases). Conversely, PC3 cells revealed a massive E2 oxidation to E1 (up to 90% by 72 h) and a scant formation of E2 (<2%) from E1. In addition, an appreciable formation of 16 alpha OHE1 was seen in either PC3 (11%) or DU145 (5%) cells. respectively using E2 or E1 as precursor. All three cell lines exhibited marked amounts of 17 beta HSD4 mRNA species, whilst even greater amounts of 17 beta HSD2 transcript were found in PC3 cells only. No mRNA for either 17 beta HSD1 or 17 beta HSD3 could be detected in any cell line. The present evidence indicates that pathways of estrogen metabolism are distinctly governed in prostate cancer cells depending on their endocrine status, being associated with a differential expression of mRNA for different 17 beta HSD enzymes.

Altered androgen metabolism eventually leads hepatocellular carcinoma to an impaired hormone responsiveness

Sex steroid hormones are thought, among several other risk factors, to play a role in liver malignancies. For example, from epidemiological studies in hepatocellular carcinoma (HCC), a clear disadvantage for male sex is evident. In addition, elevated levels of serum testosterone (T) and increased T to Estradiol (E(2)) ratio have been reported to predict an increased risk of HCC for male cirrhotic patients. On the other hand, palliative treatment of liver cancer patients with anti-hormones has been widely used in the past. However, the molecular mechanism(s) underlying sex steroid action on either normal or transformed liver cells, have not yet been fully clarified, nor endocrine discriminants have been satisfactorily assessed for an adequate characterization of liver cancer tissues. In this paper, we report studies on hormonal status of human liver tissues and cells, especially focusing on androgens, to better define endocrine end-points of interest for HCC. A consistent evidence from ex vivo or in vitro systems strongly suggests that high affinity binding sites of androgens are expressed at sufficient concentrations to induce a biological response in either normal or phenotipically transformed hepatocytes; in the latter, however, high heterogeneity and/or more scattering concentrations were encountered. Further, experimental data seem to suggest that lack of response to androgens may be due to a rapid metabolic conversion of steroids by neoplastic tissues and cells. Cancer hepatocytes privilege in fact 5beta more than 5alpha metabolic pathway of androgens. This may eventually lead biologically active androgens to be transformed into less active derivatives, as it occurs for T which is massively converted (>90% at 6 h) thus hindering the whole mechanism of action of androgens.