Verucciform xanthoma of the penis not associated with human papillomavirus infection.

Verruciform xanthoma (VX) is a rare lesion with a predilection for oral mucosa. Only 16 cases of VX of the penis have been reported. Histologically, VX lesions in different locations are identical; however, the etiology is controversial. Previous studies have reported the presence of human papillomavirus (HPV) in VX of the skin. The purpose of this study was to determine whether HPV is a causative agent in this rare case of VX of the penis. Microscopically, the lesion demonstrated prominent verrucoid squamous hyperplasia with hyperkeratosis, parakeratosis, and acanthosis. Histiocytes, a hallmark of VX, were identified in the elongated dermal papillae. Nested polymerase chain reaction was performed on the DNA with the commonly used primer sets MY9/MY11 and GP5+/GP6+, which identify more than 40 HPV types. The results failed to identify HPV DNA in the sample, although HPV could be readily detected in genomic DNA extracted from paraffin-embedded condyloma acuminatum, a known HPV-associated lesion. Additionally, we tested a VX lesion of the palate for HPV DNA and obtained negative results. Our results indicate that VX can arise without HPV infection and suggest other possible origins may be involved.

Aminopeptidase P isozyme expression in human tissues and peripheral blood mononuclear cell fractions.

Aminopeptidase P (APP) isoforms specifically remove the N-terminal amino acid from peptides that have a proline residue in the second position. The mRNA levels of three different isoforms, each coded by a different gene, were determined in 16 human tissues and in peripheral blood mononuclear cell (PBMC) fractions by RT-PCR. The cytosolic isoform, APP1, and the cell surface membrane-bound isoform, APP2, are expressed in all of the human tissues and PBMC fractions examined. The very high expression of APP2 mRNA in kidney compared to other tissues was confirmed by enzyme activity measurements. Among the PBMC fractions, APP2 expression is highest in resting CD8(+) T cells, but decreases in these cells following their activation with phytohemagglutinin; in contrast, expression of APP2 increases in CD4(+) T cells upon activation. The third isoform, APP3, is a hypothetical protein identified by nucleotide sequencing. A detailed analysis of its amino acid sequence confirmed that the protein is an aminopeptidase P-like enzyme with greater similarity to Escherichia coli APP than to either APP1 or APP2. Two splice variants of APP3 exist, one of which is predicted to have a mitochondrial localization (APP3m) while the other is cytosolic (APP3c). Both forms are variably expressed in all of the human tissues and PBMC fractions examined.

Neutrophil function in the healing wound: adding insult to injury?

Cells of the innate immune system, including neutrophils and macrophages, are a highly visible component of normal wound healing in adult mammals. The role of inflammatory cells in the healing wound has been widely investigated, and evidence for both positive and negative influences exists. Several recent investigations support the emerging paradigm that robust inflammation is detrimental to wound closure. This developing information suggests that the functional role of inflammatory cells in wound healing must be reevaluated.

Sp1 regulates cathepsin B transcription and invasiveness in murine B16 melanoma cells.

BACKGROUND: Increased expression of cathepsin B contributes to extracellular matrix degradation and invasion in cancer. Cathepsin B expression is under transcriptional control in murine melanomas and the major promoter contains potential binding sites for the Sp1 transcription factor. MATERIALS AND METHODS: Murine melanoma cells transfected with an Sp1 expression plasmid or its control were used in Matrigel invasion and cell motility assays in the presence or absence of the cathepsin B inhibitor, CA-074Me. RESULTS: Transfection of B16F1 cells with the Sp1 expression plasmid resulted in a 2.5- to 5.3 -fold increase in cathepsin B specific activity and a 4.8- to 5.5-fold increase in invasiveness over the control, but had no effect on the movement of cells across an uncoated membrane. CA-074Me treatment resulted in significantly reduced Matrigel invasion without affecting cell motility. CONCLUSION: Sp1 can regulate the capacity of B16F1 cells to degrade a reconstituted extracellular matrix in part by regulating cathepsin B expression.

Rat and mouse membrane aminopeptidase P: structure analysis and tissue distribution.

Membrane-bound aminopeptidase P (mAPP) is a highly specific exopeptidase that removes the N-terminal amino acid only from a peptide (three amino acids or longer) that has a prolyl residue in the second position. mAPP can inactivate bradykinin, a potent vasodilating and cardioprotective peptide hormone, by hydrolyzing the Arg(1)-Pro(2) bond. Studies on the rat have shown that the metabolism of bradykinin is an important physiological role of this enzyme. We report here the complete coding sequences for rat and mouse mAPP determined from mRNA isolated from lung tissue. Key structural features that determine post-translational processing and substrate recognition and catalysis were identified based on sequence homologies and the crystal structure of Escherichia coli aminopeptidase P complexed with Pro-Leu. The tissue-specific expression of mAPP was studied using the polymerase chain reaction. The mAPP gene is widely, but variably, expressed in adult tissues of the rat and mouse and in mouse embryos.

The effect of thrombocytopenia on dermal wound healing.

The immediate appearance of platelets in wounds and the ability of platelets to release growth factors suggest that platelets are an important trigger of the tissue repair process. To examine the effect of systemic thrombocytopenia on both the inflammatory and proliferative aspects of wound healing, adult mice were rendered thrombocytopenic by intraperitoneal administration of a rabbit antimouse platelet serum. Full-thickness excisional dermal wounds were prepared and analyzed for inflammatory cell content, growth factor production, reepithelialization, collagen synthesis, and angiogenesis at multiple time points after injury. Compared to control mice, thrombocytopenic mice exhibited significantly altered wound inflammation. Wounds of thrombocytopenic mice contained significantly more macrophages and T cells, yet exhibited neutrophil content similar to wounds from control mice. Surprisingly, thrombocytopenic mice exhibited no delay in the reparative aspects of wound healing. The rate of wound reepithelialization, collagen synthesis, and angiogenesis was nearly identical for thrombocytopenic and control mice. Analysis of vascular endothelial growth factor, fibroblast growth factor 2, transforming growth factor beta1, keratinocyte growth factor, and epidermal growth factor revealed no difference in the levels of these growth factors in the wounds of control and thrombocytopenic mice. Taken together, the results suggest that the presence of platelets may influence wound inflammation, but that platelets do not significantly affect the proliferative aspects of repair, including wound closure, angiogenesis, and collagen synthesis.