... (more)

lymphocytes. NEP cleaves a variety of peptides including bradykinin, substance P, bombesin, enkephalins, and atrial natriuretic peptide. We investigated its expression in several variants of rat hepatomas and a human hepatocellular carcinoma cell line. Normal rat and human livers were used as controls.
EXPERIMENTAL DESIGN: The expression of NEP (common acute lymphoblastic leukemia antigen) was determined with: (a) enzyme assays; (b) high performance liquid chromatography analysis of bradykinin metabolism; (c) immunoprecipitation; and (d) mRNA characterization.
RESULTS: NEP activity increased by 2 to 3 orders of magnitude in all rat hepatomas and in the human SK-HEP1 cell line, compared with normal tissues. Antiserum against rat NEP precipitated 93% of endopeptidase activity in rat hepatomas, whereas monoclonal antibody to common acute lymphoblastic leukemia antigen immunoprecipitated 99% of that in human hepatocarcinoma cells. Solubilized rat hepatoma membranes cleaved bradykinin to a hepta- and dipeptide; the reaction was inhibited by an NEP inhibitor. Activity of three other membrane peptidases did not increase in rat hepatomas. Northern hybridization revealed the presence of NEP mRNA in rat hepatoma, but not in normal liver. Reverse transcriptase-polymerase chain reaction showed that hepatomas have higher amounts of NEP mRNA than normal liver of the same strain.
CONCLUSIONS: Rat hepatomas and a human hepatocarcinoma cell line express high amounts of NEP, in contrast to normal rat and human livers, which have very little. The increase in NEP activity could be due to increased transcription by tumor cells and may signal malignant transformation of liver cells.

... (more)

on increases with androgen-independent progression of human CaP cell lines, suggesting that increased ILK expression may be associated with CaP progression. EXPERIMENTAL DESIGN: To assess whether ILK expression may be related to CaP development and/or progression, we have evaluated ILK expression by immunohistochemistry in 100 human prostate tissues. RESULTS: We show that ILK expression increases significantly with CaP progression. ILK immunostaining is specifically increased in high-grade, primary human CaP relative to adjacent benign prostatic hyperplasia (P < 0.001), benign prostatic hyperplasia from patients without cancer (P < 0.002), and low-grade CaP (P = 0.003). ILK overexpression is specifically associated with the increased proliferative index (P = 0.001) that typifies CaP progression. Strikingly, intense uniform ILK immunostaining was inversely related to 5-year patient survival (P = 0.004). CONCLUSIONS: ILK expression increases dramatically with CaP progression. ILK expression is also specifically related to the disproportionately increased proliferative index that contributes to the net gain of CaP cells during progression. Finally, enhanced ILK expression is inversely related to 5-year patient survival. These data therefore implicate increased ILK expression in prostate tumor progression.

... (more)

limination of a single pathway for fungal recognition in a cell type such as DCs, primarily known for their ability to prime T cell responses, would be expected to have little effect on innate resistance to fungal infection. Here we report that this is surprisingly not the case and that selective loss of Syk but not MyD88 in DCs abrogates innate resistance to acute systemic Candida albicans infection in mice. We show that Syk expression by DCs is necessary for IL-23p19 production in response to C. albicans, which is essential to transiently induce GM-CSF secretion by NK cells that are recruited to the site of fungal replication. NK cell-derived-GM-CSF in turn sustains the anti-microbial activity of neutrophils, the main fungicidal effectors. Thus, the activity of a single kinase in a single myeloid cell type orchestrates a complex series of molecular and cellular events that underlies innate resistance to fungal sepsis.