Angiogenesis or the formation of new blood vessels is important in the growth and metastatic potential of various cancers. Therefore, understanding the mechanism(s) by which angiogenesis occurs can ha Show more
Angiogenesis or the formation of new blood vessels is important in the growth and metastatic potential of various cancers. Therefore, understanding the mechanism(s) by which angiogenesis occurs can have important therapeutic implications in numerous malignancies. We and others have demonstrated that low molecular weight hyaluronan (LMW-HA, ∼2500 Da) promotes endothelial cell (EC) barrier disruption and angiogenesis. However, the mechanism(s) by which this occurs is poorly defined. Our data indicate that treatment of human EC with LMW-HA induced CD44v10 association with the receptor-tyrosine kinase, EphA2, transactivation (tyrosine phosphorylation) of EphA2, and recruitment of the PDZ domain scaffolding protein, PATJ, to the cell periphery. Silencing (siRNA) CD44, EphA2, PATJ, or Dbs (RhoGEF) expression blocked LMW-HA-mediated angiogenesis (EC proliferation, migration, and tubule formation). In addition, silencing EphA2, PATJ, Src, or Dbs expression blocked LMW-HA-mediated RhoA activation. To translate our in vitro findings, we utilized a novel anginex/liposomal targeting of murine angiogenic endothelium with either CD44 or EphA2 siRNA and observed inhibition of LMW-HA-induced angiogenesis in implanted Matrigel plugs. Taken together, these results indicate LMW-HA-mediated transactivation of EphA2 is required for PATJ and Dbs membrane recruitment and subsequent RhoA activation required for angiogenesis. These results suggest that targeting downstream effectors of LMW-HA could be a useful therapeutic intervention for angiogenesis-associated diseases including tumor progression. Show less
A novel gene encoding a 2.2 kilobase transcript has been isolated from the Xp21.1 region of the human X chromosome by exon amplification. The gene, called EXT1, spans 80 kilobases and contains 12 exon Show more
A novel gene encoding a 2.2 kilobase transcript has been isolated from the Xp21.1 region of the human X chromosome by exon amplification. The gene, called EXT1, spans 80 kilobases and contains 12 exons, at least two of which are alternatively spliced and have predicted products of 464 and 471 amino acids respectively. Conceptual translation of the open reading frames shows one product with a 30 amino acid signal peptide, which is absent from the alternative transcript, followed by three complement control protein domains, a hydrophobic region with a possible role in membrane anchorage and short 17 amino acid putative cytoplasmic carboxyl terminus. An alternative first exon contains a 39 amino acid open reading frame which is rich in serine and threonine residues and contains a potential chondroitin/dermatan sulphate attachment site. Northern analysis showed ETX1 expression within the retina and heart with lower levels in several other tissues. Since ETX1 lies within the region thought to contain the x-linked retinitis pigmentosa (xIRP) gene, RP3, it was screened for mutation within a set of 45 xIRP patients using single strand conformation analysis and/or chemical cleavage of mismatch using reverse transcription/polymerase chain reaction amplification of polyA+RNA from blood cells. Three low frequently variants (17-23Ldel, P225S, S413F) were found in both patients and controls; one of which (P225S) was found in four of 45 unrelated patient chromosomes and one of 178 control chromosomes (p <0.001). The allelic association between P225S and xIRP alleles suggests a common ancestral chromosome bearing the P225S variant and an RP3 mutation at a neighbouring locus. Show less