Hai-Ying Jin

Combined administration of basic fibroblast growth factor protein and the hepatocyte growth factor gene enhances the regeneration of dermis in acute incisional wounds

Hepatocyte growth factor (HGF) is a ligand for the c‐Met receptor tyrosine kinase. This study was aimed to characterize the role of the HGF gene combined with basic fibroblast growth factor (bFGF) protein in wound healing by administering both of them locally to acute incisional skin wounds created on the backs of rats. The bFGF protein and the HGF gene were administered intradermally after incisional surgery. Apoptotic cells in wound lesions were identified by the terminal deoxynucleotide transferase‐mediated nick‐end labeling method, as well as by immunological detection of active caspase‐3. While there was almost complete suppression of apoptosis with well‐organized wound healing in animals treated with the HGF gene, the combination of bFGF protein and the HGF gene paradoxically resulted in less scarring along with the promotion of apoptosis. Histopathological examination revealed that scar formation was least apparent in rats treated with both bFGF and the HGF gene compared with controls or those treated with the bFGF or the HGF gene alone. It is thought that the combined administration of bFGF and the HGF gene immediately after skin incision may make the healing process occur closer to tissue regeneration through the induction of apoptosis, which occurred 1 week after surgery. HGF supplementation through gene therapy combined with bFGF protein may be an effective strategy for treating wounds, as it increases the apparent regeneration of the dermis to allow for “scarless wound healing.”

Detection of human papillomavirus type 16 in bowenoid papulosis and nonbowenoid tissues

A 58‐year‐old Japanese man visited our clinic in December 2000 with a complaint of an erythematous plaque with reddish papules and pigmentation on the penis shaft and glans. He noticed the lesion 1 month before his visit. He denied any previous homosexual activity. His wife denied any genital skin lesion or gynecologic abnormality. No history of human immunodeficiency virus infection could be obtained.

Ectopic expression of tyrosinase increases melanin synthesis and cell death following UVB irradiation in fibroblasts from familial atypical multiple mole and melanoma (FAMMM) patients.

Patients with familial atypical multiple mole and melanoma (FAMMM) [so-called familial dysplastic naevus syndrome (FDNS)] have a high risk for the development of malignant melanoma. The underlying gene defect has an autosomal dominant inheritance with variable expression and incomplete penetrance. Fibroblasts derived from FAMMM patients have high sensitivity to UVC and mutagens, e.g. 4-nitroquinoline-1-oxide. We were interested in identifying how the combination of inherent sensitivity to UV light and abnormal melanin synthesis interacts in the development of melanoma in FAMMM patients. Intermediates of melanin synthesis produce free radicals that are toxic to cells. Atypical moles (dysplastic naevi) are engaged in the biosynthesis of abnormal melanin pigments. This study examined whether there was any abnormal melanin pigmentation or cell damage after the ectopic expression of tyrosinase in fibroblasts from FAMMM patients when compared with fibroblasts from normal subjects. Fibroblasts from FAMMM patients (3012T and 3072T) were associated with a higher sensitivity than normal human fibroblasts to the toxicity of UVB. When cells were infected with tyrosinase-expressing adenovirus (Ad-HT) and irradiated with UVB, FAMMM fibroblasts showed higher tyrosinase activity, produced more melanin pigments and were degraded more significantly than normal human fibroblasts. Western blot analysis revealed that Ad-HT-infected 3072T produced a larger amount of tyrosinase protein than did Ad-HT-infected normal fibroblasts after UVB irradiation. Our findings suggest: (1) that FAMMM fibroblasts have an unknown machinery which enhances tyrosinase expression by UVB irradiation; and (2) that the resulting increase in melanin synthesis affects the cytotoxicity of UVB to FAMMM fibroblasts. All of these processes may be involved in the genomic instability and development of melanoma in FAMMM patients.