The distribution of interleukin-19 in healthy and neoplastic tissue

The influence of interleukin (IL)-19, a recently discovered cytokine in the IL-10 family, on tissue is still unclear. Our aim was to determine the distribution of IL-19 expression and to delineate the cell types that express IL-19 in healthy and neoplastic tissue, because this information will significantly facilitate the exploration of its pathophysiological functions. We used tissue microarray technology and an immunohistochemical survey with an anti-IL-19 monoclonal antibody to examine the expression of IL-19 in 28 healthy and 15 neoplastic tissues. IL-19 protein was positively stained in 15 healthy tissue types and three major cell types: epithelial cells, endothelial cells, and macrophages. We also found that several types of tumor cells were positively stained for IL-19, especially in squamous cell carcinoma (SCC) of the skin, tongue, esophagus, and lung. SCC of the oral cavity expressed IL-19 mRNA and its receptors. In two cell lines derived from SCC of oral cavity tumor tissue, IL-19 specifically activated an intracellular signal and induced proliferation of the cells, which indicated that IL-19 may act in an autocrine manner in SCC tumors. This study provides important references for further investigation of the biological functions and clinical implications of IL-19 in humans.     

HER-2/neu oncogene expression and DNA ploidy in normal human kidney and renal cell carcinoma.

Using flow cytometry (FCM), we have investigated both the DNA content (stained with propidium iodide) and HER-2/neu oncogene expression (revealed by means of an anti-HER-2/neu monoclonal antibody) in neoplastic and non-neoplastic kidney samples from 20 patients with renal cell carcinoma. All the non-neoplastic samples and 15/20 (75%) renal cell cancers showed diploid modal DNA content while the remaining 5 neoplastic sample (25%) showed both diploid and hyperdiploid cell populations. In normal kidney the level of HER-2/neu oncoprotein was low (median fluorescence values in arbitrary units = 7.5 AU, range: 4-10 AU). In diploid renal cancers the level of HER-2/neu was slightly increased (median fluorescence values = 20 AU, range: 9.5-30 AU) (p < .005). The relationship of HER-2/neu expression to the cell cycle in these tumor samples is not clear since most of the cells express the antigen in all phases of the cell cycle. On the other hand, there is an association between HER-2/neu expression and abnormal DNA content suggesting that aneuploid pattern may be biologically related to overexpression of the HER-2/neu gene.     

Distribution of soluble epoxide hydrolase, cytochrome P450 2C8, 2C9 and 2J2 in human malignant neoplasms

Summary Soluble epoxide hydrolase (sEH) is a bifunctional enzyme with a C-terminal epoxide hydrolase activity and an N-terminal phosphatase activity. Arachidonic acid epoxides, previously suggested to be involved in apoptosis, oncogenesis and cell proliferation, are generated by cytochrome P450 epoxygenases and are good substrates of the sEH C-terminal domain. In addition, the N-terminal phosphatase domain hydrolyzes isoprenoid mono- and pyrophosphates, which are involved in cell signaling and apoptosis. Here we provide a comprehensive analysis of the distribution of sEH, CYP2C8, 2C9 and 2J2 in human neoplastic tissues using tissue micro-arrays. The human neoplastic tissue micro-arrays provide a well-controlled side by side analysis of a wide array of neoplastic tissues and their surrounding normal tissue controls. Many of the neoplastic tissues showed altered expression of these enzymes as compared to normal tissues. Altered expression was not limited to the neoplastic tissues but also found in the surrounding non-neoplastic tissues. For example, sEH expression in renal and hepatic malignant neoplasms and surrounding non-neoplastic tissues was found to be significantly decreased, whereas expression was found to be increased in seminoma as compared to normal tissues. Our study warrants further investigation of the role of altered expression of these enzymes in neoplastic tissues.     

Interaction of serum and cell spreading affects the growth of neoplastic and non-neoplastic fibroblasts

Both growth factor availability and cell-to-cell contact have been mechanisms used to explain cell growth regulation at high cell density. Recently Folkman and colleagues have shown that changes in cell shape, rather than cell-to-cell contact, can regulate the growth of fibroblasts. However, in those studies the relation between serum and shape regulation of growth was not studied, nor were neoplastic and non-neoplastic cells compared. In this report we have studied these aspects by varying cell spreading and serum concentration independently for 2 non-neoplastic and 3 neoplastic cell lines. Cell spreading (projected cell area) was controlled by decreasing the adhesiveness of tissue culture plastic plates with poly (hydroxyethyl methacrylate) [poly (HEMA)]. Cell growth was measured as the increase in cell number/day. We have found that more spreading increased net growth of both neoplastic and non-neoplastic cells, while less spreading (toward rounded configuration) depressed growth. There were also quantitative differences between neoplastic and non-neoplastic cells. Neoplastic cells continued to grow under conditions of cell rounding, which completely prevented the growth of their non-neoplastic counterparts. Some neoplastic cells also tended to show little or no increase in net cell number for serum concentrations above 10% as cells became more spread; in contrast, all non-neoplastic cells grew more with increasing concentrations of serum as they became well spread. Thus, in normal cells, it appears that the sensitivity of cells to humoral factors is governed by cell spreading. This interaction between serum and cell shape is less prominent in some neoplastic cells.     

Single- and double-stranded RNA measurements by flow cytometry in solid neoplasms

We investigated the ability of single- and double-stranded RNA measurements to discriminate between neoplastic and non-neoplastic solid tissues. Sixty-one solid nonhematopoietic neoplasms, 10 reactive non-neoplastic lesions, and 26 normal tissue samples were the test materials. Single-stranded ribonucleic acid (s-RNA) levels and double-stranded ribonucleic acid (ds-RNA) excess in these specimens were defined in relationship to normal human lymphocytes. The mean s-RNA index in normal, reactive, benign, and diploid and aneuploid malignant tissue samples was 0.90, 1.54, 1.9, 1.2, and 2.2, respectively. For ds-RNA, the mean excess level for normal, reactive, benign, and diploid and aneuploid malignant specimens was 8.5%, 18.5%, 51.0%, 36.0%, and 41.3%, respectively. No statistical differences in s-RNA level were found between non-neoplastic and neoplastic tissue samples. A significant difference in ds-RNA excess was found between non-neoplastic and benign, and diploid and aneuploid malignant neoplastic tissue (P less than 0.001). The specificity of s-RNA level and ds-RNA excess was 94.4% and 100%, and the sensitivity was 29.5% and 67.2%, respectively. Notably, ds-RNA determinations identified 70.0% of the diploid neoplastic samples, in contrast to 20% by s-RNA. Our preliminary data suggest that ds-RNA may be a useful parameter and may complement DNA ploidy in identification of solid neoplasms, especially if the yield of intact cells is improved.     

IL-20: biological functions and clinical implications

Summary IL-20 belongs to the IL-10 family and plays a role in skin inflammation and the development of hematopoietic cells. Little is known about its other biological functions and clinical implications, however. Updated information about IL-20, such as its identification, expression, receptors, signaling, biological activities, and potential clinical implications, is illustrated in this review based on our research and on data available in the literature. Our studies of IL-20 show that it is a pleiotropic cytokine with potent inflammatory, angiogenic, and chemoattractive characteristics. Inflammation and angiogenesis are essential for the pathogenesis of rheumatoid arthritis and atherosclerosis. Based on in vitro data and clinical samples, we demonstrated that IL-20 is involved in the diseases of rheumatoid arthritis and atherosclerosis. In addition, we found in our studies that IL-20 signaled through different molecules in several cells. The present review presents the clinical implications of IL-20 in rheumatoid arthritis and atherosclerosis. It may provide new therapeutic options in the future.This work was supported by a grant from Chi-Mei Medical Center, Tainan, Taiwan.     

In situ assessment of mRNA accessibility in heterogeneous tissue samples using elongation factor-1α (EF-1α)

 Elongation factor-1α (EF-1α) is an evolutionarily highly conserved universal cofactor of protein synthesis in all living cells. In this study, its use as a positive control in situ hybridization assays for specific detection of mRNA sequences was evaluated. Northern blot analysis of various non-neoplastic and neoplastic cultured cells of different stages of confluence, cell shape, and cell cycle status revealed that EF-1α had a lower and more homogeneous expression than did β-actin. In situ hybridization assays using digoxigenin-labeled riboprobes for the detection of EF-1α mRNA in routinely formalin-fixed, paraffin-embedded tissue sections showed that EF-1α is a suitable positive control in all types of cells. However, variation of protease pretreatments demonstrated distinct and sometimes mutually exclusive digestion conditions for different cell types within the same tissue sample. Our results indicate that detection of EF-1α mRNA is an appropriate internal standard for in situ hybridization assays and that it is useful to control artifacts such as false negatives caused by inappropriate protease pretreatments. The observed variability of optimal protease pretreatments for different cell types within the same tissue section strengthens the importance of a positive control in in situ hybridization assays. Accepted: 17 December 1996     

Gene expression and immunohistochemical localization of basic fibroblast growth factor in renal cell carcinoma.

Renal cell carcinoma is known as a neoplastic condition of renal tubular cells and usually shows a hypervascular tumor in angiographic examination. We examined the presence of basic fibroblast growth factor (bFGF) in human renal cell carcinoma. To determine if alterations in bFGF gene expression are present in human renal cell carcinoma, paired samples of normal and neoplastic renal tissue from 6 patients were analyzed for bFGF mRNA content by Northern blot hybridization. In 4 out of 6 patients, tumor tissue expressed bFGF mRNA 2 to 4 times greater than corresponding normal tissue. Two patients showed minimal elevation of tumor bFGF mRNA. The localization of bFGF in the renal cell carcinoma tissue was also examined using immunohistochemical staining, and it was found that bFGF was positively stained at the nuclei of tumor cells and the cell surface. These results suggest that increased expression of bFGF may be associated with neoplastic growth in renal tubular epithelial cells and neovascularization.     

Identification of differentially expressed proteins in colorectal cancer by proteomics: down-regulation of secretagogin

To identify proteins with colorectal cancer-specific regulation, comparative 2-DE of individual-matched normal and neoplastic colorectal tissue specimens was performed. We found 15 protein spots with concordantly increased and 20 protein spots with concordantly decreased intensity in tumor tissue (expression regulation more than fivefold). Nine of these proteins were identified by MS/MS. Interestingly, one of the proteins, which exhibited a marked down-regulation in colorectal cancer tissues, was the recently identified endocrine cell-expressed protein secretagogin. The reduction of the secretagogin content in colorectal cancer tissues was confirmed by comparative immunoblotting (n = 17) and RT-PCR (n = 22) as well as by immunohistochemistry (n = 45) of individual-matched neoplastic and normal colorectal tissue specimens. Immunohistochemistry revealed absence of secretagogin-expressing cells in most of the colorectal cancer tissue specimens. However, some colorectal cancers were characterized by secretagogin-expressing cells. In normal mucosa, positively stained cells exhibited a neuroendocrine cell-characteristic morphology and mucosal location. In colorectal cancer tissues, secretagogin-expressing cells were characterized by a malignant morphology. Our findings might represent the basis for the clinical application of secretagogin as a biomarker for a distinct subgroup of colorectal cancers.     

Nuclear localisation of endogenous SUMO-1-modified PDGF-C in human thyroid tissue and cell lines

We investigated post-translational modification and subcellular localisation of endogenous platelet-derived growth factor-C (PDGF-C) in human thyroid papillary carcinomas (PTC), non-neoplastic thyroid tissues, and a selection of cultured cell lines. PDGF-C expressed nuclear localisation in 95% of all tested cell types in culture and in 10% of the thyrocytes from both PTC and non-neoplastic tissue. The cell lines expressed two forms of full-length PDGF-C, approximately 39 and approximately 55 kDa, in cell membrane and cytosol, while the approximately 55 kDa form dominated in the nucleus where it was partly chromatin-associated. The approximately 55 kDa form was post-translationally modified by SUMO-1. The putative PDGF-C SUMOylation site is the surface exposed (314)lysine part of a positively charged loop ((312)RPKTGVRGLHK(322)) with characteristics of a nuclear localisation signal. The tissue thyrocytes expressed a non-SUMOylated approximately 43 kDa and the 55 kDa PDGF-C. The SUMO-1 modified approximately 55 kDa PDGF-C expression was low in PTC where the approximately 43 kDa PDGF-C dominated. This is in contrast to non-neoplastic tissue and cultured cells where the SUMOylated approximately 55 kDa PDGF-C was strongly expressed. Our data provide novel evidence for nuclear localisation of PDGF-C, post-translational modification by SUMOylation and the expression of a novel form of PDGF-C in human papillary thyroid carcinomas.     

Seminal plasma induces the expression of IL-1α in normal and neoplastic cervical cells via EP2/EGFR/PI3K/AKT pathway

Background

Cervical cancer is a chronic inflammatory disease of multifactorial etiology usually presenting in sexually active women. Exposure of neoplastic cervical epithelial cells to seminal plasma (SP) has been shown to promote the growth of cancer cells in vitro and tumors in vivo by inducing the expression of inflammatory mediators including pro-inflammatory cytokines. IL-1α is a pleotropic pro-inflammatory cytokine induced in several human cancers and has been associated with virulent tumor phenotype and poorer prognosis. Here we investigated the expression of IL-1α in cervical cancer, the role of SP in the regulation of IL-1α in neoplastic cervical epithelial cells and the molecular mechanism underlying this regulation.

Methods and results

Real-time quantitative RT-PCR confirmed the elevated expression of IL-1α mRNA in cervical squamous cell carcinoma and adenocarcinoma tissue explants, compared with normal cervix. Using immunohistochemistry, IL-1α was localized to the neoplastically transformed squamous, columnar and glandular epithelium in all cases of squamous cell carcinoma and adenocarcinomas explants studied. We found that SP induced the expression of IL-α in both normal and neoplastic cervical tissue explants. Employing HeLa (adenocarcinoma) cell line as a model system we identified PGE₂ and EGF as possible ligands responsible for SP-mediated induction of IL-1α in these neoplastic cells. In addition, we showed that SP activates EP2/EGFR/PI3kinase-Akt signaling to induce IL-1α mRNA and protein expression. Furthermore, we demonstrate that in normal cervical tissue explants the induction of IL-1α by SP is via the activation of EP2/EGFR/PI3 kinase-Akt signaling.

Conclusion

SP-mediated induction of IL-1α in normal and neoplastic cervical epithelial cells suggests that SP may promote cervical inflammation as well as progression of cervical cancer in sexually active women.

     

Human archival tissues provide a valuable source for the analysis of spatial genome organization

Sections from archival formalin-fixed, paraffin wax-embedded human tissues are a valuable source for the study of the nuclear architecture of specific tissue types in terms of the three-dimensional spatial positioning and architecture of chromosome territories and sub-chromosomal domains. Chromosome painting, centromeric, and locus-specific probes were hybridized to tissue microarrays prepared from formalin-fixed paraffin wax-embedded samples of pancreas and breast. The cell nuclei were analyzed using quantitative three-dimensional image microscopy. The results obtained from non-neoplastic pancreatic cells of randomly selected individuals indicated that the radial arrangement of the chromosome 8 territories as well as their shape (roundness) did not significantly differ between the individuals and were in accordance with assumptions of a probabilistic model for computer simulations. There were considerable differences between pancreatic tumor and non-neoplastic cells. In non-neoplastic ductal epithelium of the breast there was a larger, but insignificant, variability in the three-dimensional positioning of the centromere 17 and HER2 domains between individuals. In neoplastic epithelial breast cells, however, the distances between centromere and gene domains were, on average, smaller than in non-neoplastic cells. In conclusion, our results demonstrate the feasibility of studying the genome architecture in archival, formalin-fixed, paraffin wax-embedded human tissues, opening new directions in tumor research and cell classification.     

Differential distributions of CSE1L/CAS and E-cadherin in the polarized and non-polarized epithelial glands of neoplastic colorectal epithelium

Colorectal glands are important functional organs in colorectal tissue and are also the origin of colorectal carcinomas. Epithelial cell polarization of colorectal glands is related to structural integrity and physiological functions of colorectal glands as well as colorectal carcinoma formation. The cellular apoptosis susceptibility (CSE1L/CAS) protein has been shown to induce polarity formation of human colorectal cells in cell culture. E-cadherin expression in epithelial cells is crucial for the establishment and maintenance of epithelial cell polarity. In this study we examined the distributions of CSE1L and E-cadherin in the epithelial glands of normal and neoplastic colorectal epithelium and correlated these to polarity formation in the colorectal glands. Our results showed that CSE1L was differentially stained in the epithelial glands of neoplastic colorectal epithelium, and the staining was related to gland epithelial cell polarization and E-cadherin distribution. CSE1L was associated E-cadherin in GST pull-down experiments and immunoprecipitation assays. Basolateral staining of CSE1L and E-cadherin were seen in the polarized glands of normal and neoplastic colorectal epithelium. Absence of basolateral CSE1L staining in neoplastic epithelium glands was associated with loss of gland epithelial cell polarity, and this was parallel with E-cadherin staining. The non-polarized areas in epithelium glands showed a patchy staining for CSE1L and E-cadherin. These results indicate that examination of CSE1L and E-cadherin distribution in colorectal epithelium glands may be valuable for evaluating the malignance of colorectal disease.     

Prognostic Impact of Reduced Connexin43 Expression and Gap Junction Coupling of Neoplastic Stromal Cells in Giant Cell Tumor of Bone

Missense mutations of the GJA1 gene encoding the gap junction channel protein connexin43 (Cx43) cause bone malformations resulting in oculodentodigital dysplasia (ODDD), while GJA1 null and ODDD mutant mice develop osteopenia. In this study we investigated Cx43 expression and channel functions in giant cell tumor of bone (GCTB), a locally aggressive osteolytic lesion with uncertain progression. Cx43 protein levels assessed by immunohistochemistry were correlated with GCTB cell types, clinico-radiological stages and progression free survival in tissue microarrays of 89 primary and 34 recurrent GCTB cases. Cx43 expression, phosphorylation, subcellular distribution and gap junction coupling was also investigated and compared between cultured neoplastic GCTB stromal cells and bone marow stromal cells or HDFa fibroblasts as a control. In GCTB tissues, most Cx43 was produced by CD163 negative neoplastic stromal cells and less by CD163 positive reactive monocytes/macrophages or by giant cells. Significantly less Cx43 was detected in α-smooth muscle actin positive than α-smooth muscle actin negative stromal cells and in osteoclast-rich tumor nests than in the adjacent reactive stroma. Progressively reduced Cx43 production in GCTB was significantly linked to advanced clinico-radiological stages and worse progression free survival. In neoplastic GCTB stromal cell cultures most Cx43 protein was localized in the paranuclear-Golgi region, while it was concentrated in the cell membranes both in bone marrow stromal cells and HDFa fibroblasts. In Western blots, alkaline phosphatase sensitive bands, linked to serine residues (Ser369, Ser372 or Ser373) detected in control cells, were missing in GCTB stromal cells. Defective cell membrane localization of Cx43 channels was in line with the significantly reduced transfer of the 622 Da fluorescing calcein dye between GCTB stromal cells. Our results show that significant downregulation of Cx43 expression and gap junction coupling in neoplastic stromal cells are associated with the clinical progression and worse prognosis in GCTB.     

Bile salt exposure increases proliferation through p38 and ERK MAPK pathways in a non-neoplastic Barrett's cell line

Bile reflux has been implicated in the neoplastic progression of Barrett's esophagus (BE). Bile salts increase proliferation in a Barrett's-associated adenocarcinoma cell line (SEG-1 cells) by activating ERK and p38 MAPK pathways. However, it is not clear that these findings in cancer cells are applicable to non-neoplastic cells of benign BE. We examined the effect of bile salts on three human cell lines: normal esophageal squamous (NES) cells, non-neoplastic Barrett's cells (BAR cells), and SEG-1 cells. We hypothesized that bile salt exposure activates proproliferative and antiapoptotic pathways to promote increased growth in BE. NES, BAR, and SEG-1 cells were exposed to glycochenodeoxycholic acid (GCDA) at a neutral pH for 5 min. Proliferation was measured by Coulter counter cell counts and a 5-bromo-2'-deoxyuridine (BrdU) incorporation assay. GCDA-induced MAPK activation was examined by Western blot analysis for phosphorylated ERK and p38. Apoptosis was measured by TdT-mediated dUTP nick-end labeling and annexin V staining after GCDA and UV-B exposure. Statistical significance was determined by ANOVA. NES cells exposed to 5 min of GCDA did not increase cell number. In BAR cells, GCDA exposure increased cell number by 31%, increased phosphorylated p38 and ERK levels by two- to three-fold, increased BrdU incorporation by 30%, and decreased UV-induced apoptosis by 15-20%. In conclusion, in a non-neoplastic Barrett's cell line, GCDA exposure induces proliferation by activation of both ERK and p38 MAPK pathways. These findings suggest a potential mechanism whereby bile reflux may facilitate the neoplastic progression of BE.     

Altered interleukin-1 receptor antagonist and interleukin-18 mRNA expression in myocardial tissues of patients with dilatated cardiomyopathy

Interleukin-1 (IL-1) is a potent regulator of cell proliferation, inflammation, and contraction of cardiovascular cells. It has been proposed that the IL-1/IL-1ra (IL-1 receptor antagonist) ratio influences these functions. Other members of the IL-1 family and the related caspase-1 also contribute to regulation of IL-1-mediated functions. We determined the mRNA expression of caspase-1, caspase-3, IL-1alpha , IL-1beta , IL-18, IL-1 receptor type I (IL-1-RI), and IL-1ra in left ventricle tissue of hearts from patients with ischemic or dilated cardiomyopathy (ICM or DCM) and in control tissues from unused donor transplant hearts in RT-PCR experiments. We show that the expression of caspase-1, caspase-3, IL-1beta , and IL-1-RI mRNA was not different between patients and control tissues. Furthermore, we did not find detectable amounts of IL-1alpha mRNA in any of these adult myocardial tissues. On the other hand, expression of IL-18 RNA was lower in myocardium of both patient groups compared with control hearts. Furthermore, IL-1ra mRNA expression was significantly lower in tissues of DCM patients compared with ICM patients and controls. This was in line with a trend towards lower IL-1ra protein levels in myocardial tissues of DCM patients. In contrast with the adult tissues discussed above, which did not express IL-1alpha mRNA, commercially available human fetal tissue expressed IL-1alpha mRNA. On the other hand IL-1beta mRNA was present in fetal and in adult human heart tissue. Our data provide evidence for an altered ratio of IL-1/IL-1ra in DCM patients. This dysregulation may contribute to pathogenesis and/or progression of heart disease by modulating the otherwise balanced IL-1-mediated functions in cardiovascular cells.     

Direction of locomotion in clones of non-neoplastic fibroblasts and their neoplastic derivatives

The locomotion of cloned mouse fibroblasts, non-neoplastic and their spontaneously transformed neoplastic derivatives was compared by means of cinephotomicrography. The spontaneous transformants grow as invasive transplantable sarcomas, whereas the non-neoplastic fail to grow as tumors, and do not show the diagnostic characteristics of neoplastic cells in culture; these include certain morphologic alterations, growth in soft agar, and susceptibility to killing by activated macrophages. The non-neoplastic cells tended to maintain the same direction of locomotion in sequential 2.5 h periods, whereas the neoplastic cells did not. Thus, cells in all non-neoplastic lines exhibited a “persisten” walk while cells from the neoplastic lines had a random pattern of locomotion. No relationship between cell density and randomness of locomotion was observed, and the non-neoplastic cells appeared to grow as rapidly as the neoplastic cells. However, the neoplastic cells had higher rates of locomotion possibly associated with their invasive potential in vivo. The deficient amount of lamellar cytoplasm in the neoplastic cells and the high migration rate may account for their random pattern of locomotion.     

The Identification of Foetal Antigens in Human Bone Marrow Cells

Using an anti-serum raised in rabbits against 12 week old human foetuses, foetal-specific materials were identified in bone marrow cells in a number of neoplastic and non-neoplastic conditions.
Particularly high levels were found in patients with pernicious anaemia and folic acid deficiency and to a lesser extent, iron deficiency. Several types of leukaemia also demonstrated high proportion of the cells staining positive with the anti-foetal serum described.
The importance of the expression of foetal substances by cells during both neoplastic and non-neoplastic abnormal states is discussed. Emphasis is also placed on the importance of maturation arrest and abnormalities being one of the conditions under which foetal-specific substances (also called foetal antigens), can be expressed.