Expression of functional tyrosine kinases on immortalized Kaposi's sarcoma cells.

Kaposi's sarcoma (KS) is the most frequent malignant lesion in patients with AIDS and is characterized by spindle cell proliferation, inflammatory cell infiltration, angiogenesis, edema, and invasiveness. KS origin is still debated. The complex aspect of this disease is probably supported by multiple concomitant pathogenetic factors, among which growth factors and their cognate tyrosine kinase receptors are deeply involved. Here we have investigated the expression status and functional integrity of KDR and Met receptors, as well as of their ligands, in an immortalized KS cell line (KS-IMM). The MET and KDR genes encode the tyrosine kinase receptors for Hepatocyte Growth Factor (HGF) and Vascular Endothelial Growth Factor (VEGF) respectively. Both factors are pleiotropic cytokines controlling growth, survival, motility, invasive migration and differentiation of endothelial cells. We have found that KS-IMM cells, which retain most of the features of the parental tumor and can induce KS-like sarcomas when injected subcutaneously in nude mice, express the Met receptor, but not its ligand. The receptor, which is basally inactive, is functional, being tyrosine phosphorylated in response to ligand stimulation and mediating the expected HGF-dependent biological responses of motility, invasion and proliferation. Moreover, we report that KS-IMM cells coexpress VEGF and KDR and that KDR is constitutively tyrosine phosphorylated, possibly as a consequence of the establishment of an autocrine loop. The receptor, however, maintains responsiveness to exogenously added ligand, by increasing the level of tyrosine phosphorylation and by responding in biological assays of motility, invasion and proliferation. Finally, we have found that the two growth factors synergize in a motility assay. These data show that HGF and VEGF are growth factors active on KS-IMM cells.

AP-2 transcription factors in the regulation of ERBB2 gene transcription by oestrogen.

Transcription of the ERBB2 oncogene is repressed by oestrogen in human breast cancer cells. We show that a 218 bp fragment of the human ERBB2 gene promoter is responsive to oestrogen in transient transfection in ZR75.1 and SKBR.3 cells when the oestrogen receptor is expressed. Deletion analysis of this fragment shows that a sequence located at the 5' end, which is known to mediate ERBB2 overexpression in breast cancer, is also responsible for the oestrogen response. This sequence binds AP-2 transcription factors and appears functionally identical to an element of the oestrogen-dependent enhancer described in the first intron of human ERBB2. We observed that oestrogen treatment down-regulates expression of AP-2 proteins but does not affect the DNA binding activity of AP-2. Constitutive expression of AP-2beta or AP-2gamma, but not AP-2alpha, abrogates the estrogenic repression. Our results demonstrate that AP-2 transcription factors are implicated in the oestrogenic regulation of ERBB2 gene expression and suggest a complex interplay involving the different AP-2 isoforms and other unidentified factors.