Harry F. Abts

Molecular basis of basal cell carcinoma: analysis of differential gene expression by differential display PCR and expression array.

Basal cell carcinoma (BCC) is the most common tumor in the Caucasian population. Although BCC rarely metastasize and cause death, they are problematic due to their destructive growth and the frequent localization on the face. Until now the knowledge of genes differentially expressed in BCC has been incomplete. To elucidate the complex alterations in BCC‐associated gene expression, we took advantage of 2 techniques: the differential display RT‐PCR (DD‐PCR) and the differential hybridization of cDNA arrays. Using DD‐PCR, we showed differential expression of genes known from other biological contexts (e.g., rac, ubiquitin hydrolase), which could now be associated with BCC. In addition, we detected unknown genes possibly contributing to the carcinogenesis of BCC. Of the 588 genes screened by differential hybridization of the Atlas™ human cDNA array, differences in the expression levels of BCC were observed for 10 genes. These data were obtained with RNA probes pooled from several BCC of different donors and were subsequently confirmed by semiquantitative RT‐PCR for Janus protein tyrosine kinase 3 (Jak3), microsomal glutathione S‐transferase 1 (GST 12), teratocarcinoma‐derived growth factor cripto, glutaredoxin and the monocyte chemoattractant protein 1 (MCP‐1) in 10 individual BCC specimens, 2 squamous cell carcinoma (SCC), the cell line HaCaT and cultured normal human keratinocytes (NHK) in comparison to normal skin. These genes are candidates from gene families with known association to tumors, but they have not been reported in the carcinogenesis of BCC yet. In summary, both approaches allow the detection of differentially expressed genes possibly involved in the carcinogenesis of BCC.

Suppression of proteasome C2 contralateral to ischemic lesions in rat brain

Functional as well as structural reorganization takes place in the surrounding and remote brain areas after focal ischemic lesions. In particular, reactive or regenerative processes have been described to occur in the contralateral hemisphere. We used mRNA differential display to gain more insight into the molecular mechanisms underlying this type of neuronal plasticity. Circumscribed unilateral infarcts consistently affecting the forelimb area of the primary motor cortex were induced photochemically in adult male Wistar rats. The lesion produced significant behavioral asymmetry with subsequent partial recovery within 1 week. Cloning the genes with altered expression profiles identified the 20S proteasome subunit C2 as a gene whose expression level is decreased in contralateral homotopic cortex. Semiquantitative reverse transcription-polymerase chain reaction (RT-PCR) revealed approximately twofold lower proteasome C2 mRNA levels in the lesion group as compared with the sham-operated group. The proteasome serves as the central enzyme of non-lysosomal protein degradation. It is responsible for intracellular protein turnover and is critically involved in a variety of regulation processes, such as cell cycle, metabolism and differentiation. Our results suggest that proteasome activity may play also a role in contralateral cortical plasticity occurring after focal cerebral ischemia.

Analysis of UVB‐modulated Gene Expression in Human Keratinocytes by mRNA Differential Display Polymerase Chain Reaction

Abstract— EUltraviolet (UV) light is the most important environmental insult to skin. Even a single exposure to UVB radiation can result in inflammation and may also lead to DNA damage and apoptosis in the acute response of the cutaneous tissue. To elucidate the complex alterations of gene expression in human keratinocytes underlying these UV responses we took advantage of differential display polymerase chain reaction (DD‐PCR) technologys ability to detect qualitative and quantitative changes in gene expression in more than two cell populations simultaneously. We demonstrate that low‐dose UVB (100 Jm‐2) leads to both induction and down regulation of different genes during the 24 h after irradiation in a time‐dependent manner. In addition to the identification of known genes as possible effectors or targets in the UV response of human keratinocytes, we here identify a new sequence that is negatively regulated by UVB irradiation and was termed HUR 7 (HaCaT UV repressed). In general our results showed that DD‐PCR is a useful tool in the analysis of quantitative changes of mRNA levels in human keratinocytes after UV irradiation. The identification of new UVB‐repressed genes offers the opportunity to identify unrecognized molecular mechanisms in the UV response of human cells.

Differential IL-10 receptor gene expression in acute versus chronic atopic eczema. Modulation by immunosuppressive drugs and cytokines in normal cultured keratinocytes

Abstract.Objective and Design: The effects of the anticytokine interleukin 10 (IL-10) are mediated by specific receptors. In this study we examined the role of the IL-10 receptor (IL-10R) in the pathophysiology of atopic eczema. ¶Materials and Methods: For this purpose we analyzed the expression of IL-10R in the skin of patients with acute and chronic atopic eczema in comparison to the expression in healthy individuals using in situ binding experiments with fluorescently labeled IL-10 and semiquantitative reverse transcriptase-PCR specific for IL-10R1. In addition, we studied the influence of the Th2-associated cytokine interleukin-4 (IL-4), the Th1-associated gamma-interferon (IFN-γ), the immunosuppressive drug FK506, the H1-antagonist loratadine and UVA irradiation on the expression of IL-10R1 in cultured normal human keratinocytes. ¶Results: We found that IL-10 receptor mRNA and protein are strongly downregulated in acute phase atopic lesions. Furthermore we could show that IL-4, IFN-γ, FK506, loratadine and UVA enhance the mRNA levels of the IL-10R1 in vitro in normal cultured keratinocytes. We could also demonstrate restored IL-10R1 mRNA levels in lesional atopic skin of a patient after UVA1 therapy. ¶Conclusions: Our results demonstrate for the first time that IL-10 receptors may have a role in the pathogenesis of atopic eczema and its upregulation by FK506 and UVA could explain the therapeutic efficacy of these agents.

Expression of hurpin, a serine proteinase inhibitor, in normal and pathological skin: overexpression and redistribution in psoriasis and cutaneous carcinomas

Abstract:  Hurpin was identified by differential display analysis studying UV‐repressible genes in the keratinocyte cell line HaCaT. We have previously reported that hurpin mRNA is overexpressed in psoriatic skin compared to non‐lesional or normal skin; hurpin inhibits cathepsin L and that, after overexpression in keratinocytes, hurpin decreases UV‐induced apoptosis. To further study the expression of hurpin, we have isolated monoclonal antibodies against hurpin and analyzed its expression in normal and diseased skin by immunohistochemistry (IHC). In the epidermis of normal skin, we found hurpin to be mainly expressed in the stratum basale. In contrast, we found an enhanced expression of hurpin in the stratum spinosum and stratum granulosum in the majority of diseased skin samples. Within the dermis of normal and diseased skin, hurpin was detected in sebaceous and sweat glands, hair follicles, and endothelial cells of blood vessels. Hurpin was localized in the cytoplasm in normal and diseased skin. Additionally to IHC, we analyzed hurpin expression in selected skin diseases by semiquantitative reverse‐transcription polymerase chain reaction. We found overexpression of hurpin mRNA in psoriasis, squamous cell carcinoma (SCC), and actinic keratosis. In contrast, expression of hurpin in melanoma and basal cell carcinoma was comparable to that in normal skin. Overall, the strongest overexpression was observed in SCC and psoriasis. Individual differences in hurpin expression between patients were observed. The increased expression and redistribution of hurpin in diseased skin suggests its possible involvement in inflammatory processes or the regulation of endogenous or pathogen‐derived proteinase activity. Additional studies will elucidate the physiological role of hurpin.

Sequence, organization, chromosomal localization, and alternative splicing of the human serine protease inhibitor gene hurpin (PI13) which is upregulated in psoriasis.

Hurpin (protease inhibitor 13; PI13) is the most recently identified member of the ovalbumin family of serine protease inhibitors (serpins). It is expressed in human epidermal keratinocytes and is downregulated by exposure to ultraviolet irradiation. A role for hurpin in the proliferation or differentiation of keratinocytes has been proposed because of its strong expression in proliferating cells and its deregulated expression in the lesional epidermis of psoriatic patients. Here, we report the cloning, chromosomal localization, and complete sequence of the human hurpin gene. By PCR-based screening of the GeneBridge 4 radiation hybrid panel, we mapped the gene to chromosome 18q21.3, close to a known cluster of ov-serpin genes. Using the full-length cDNA for hurpin, we identified two clones from an arrayed genomic P1 placental library that contain the entire hurpin gene. Sequencing revealed that the gene covers 12.253 kb and is comprised of eight exons and seven introns. The exon--intron boundaries are identical in position and phasing to those in other members of the 18q serpin gene cluster, and analysis of hurpin variants indicated that modified functional inhibitors, differing only in the CD interhelical loop, can be generated by differential splicing of exon 3. These data show that hurpin is a typical member of the 18q ovalbumin-serpins most closely related to the serpins squamous-cell carcinoma antigens 1 and 2.