Akihiko Shibaki

Toxic Epidermal Necrolysis and Stevens-Johnson Syndrome Are Induced by Soluble Fas Ligand

The pathogeneses of toxic epidermal necrolysis (TEN) and Stevens-Johnson syndrome (SJS), both severe blistering diseases usually associated with drug intake, are not fully elucidated. Histologically, both TEN and SJS are characterized by extensive keratinocyte apoptosis. Previous studies have shown that keratinocyte apoptosis in TEN and SJS was induced by a suicidal interaction between Fas and Fas ligand (FasL), which are both expressed by keratinocytes. However, our preliminary examinations demonstrated that FasL is hardly detected on keratinocytes. We hypothesized that soluble FasL (sFasL) is secreted by peripheral blood mononuclear cells (PBMCs), and this interacts with the Fas expressed on keratinocytes in TEN and SJS. To justify this hypothesis, we investigated whether sFasL secreted by PBMCs could induce the keratinocyte apoptosis in TEN and SJS. Enzyme-linked immunosorbent assay analysis demonstrated that there was no significant sFasL increase in any samples of healthy controls (<40 pg/ml, n = 14) and patients with an ordinary erythema multiforme-type drug eruption (41.5 +/- 3.1 pg/ml, n = 14), whereas high concentrations are detected in all samples of TEN and SJS patients (TEN: 131.5 +/- 57.4 pg/ml, n = 8; SJS: 119.1 +/- 41.0 pg/ml, n = 14) (P < 0.0001). In vitro analysis using cultured keratinocytes revealed that the sera of TEN and SJS patients induced abundant keratinocyte apoptosis compared to erythema multiforme-type drug eruption sera. Furthermore, on stimulation with the causal drug, PBMCs obtained from TEN and SJS patients secreted high levels of sFasL. Taken together, these results indicate that sFasL secreted by PBMCs, not keratinocytes, plays a crucial role in the apoptosis and pathomechanism of TEN and SJS, and that the serum sFasL level may be a good indicator for the early diagnosis of TEN and SJS.

Humanization of autoantigen

Transmissibility of characteristic lesions to experimental animals may help us understand the pathomechanism of human autoimmune disease. Here we show that human autoimmune disease can be reproduced using genetically engineered model mice. Bullous pemphigoid (BP) is the most common serious autoimmune blistering skin disease, with a considerable body of indirect evidence indicating that the underlying autoantigen is collagen XVII (COL17). Passive transfer of human BP autoantibodies into mice does not induce skin lesions, probably because of differences between humans and mice in the amino acid sequence of the COL17 pathogenic epitope. We injected human BP autoantibody into Col17-knockout mice rescued by the human ortholog. This resulted in BP-like skin lesions and a human disease phenotype. Humanization of autoantigens is a new approach to the study of human autoimmune diseases.

Overexpression of Pigment Epithelium-Derived Factor Decreases Angiogenesis and Inhibits the Growth of Human Malignant Melanoma Cells in Vivo

Pigment epithelium-derived factor (PEDF) has recently been shown to be the most potent inhibitor of angiogenesis in the mammalian eye, and is involved in the pathogenesis of angiogenic eye disease such as proliferative diabetic retinopathy. However, a functional role for PEDF in tumor growth and angiogenesis remains to be determined. In this study, we have investigated both the in vitro and in vivo growth characteristics of human malignant melanoma G361 cell lines, stably transfected to overexpress human PEDF. Expression levels of PEDF proteins in melanoma cell lines G361 and A375 were comparable with that of human cultured melanocytes, whereas vascular endothelial growth factor levels in two tumor cell lines were much stronger than that in normal melanocytes. Overexpression of PEDF was found to significantly inhibit tumor growth and vessel formation in G361 nude mice xenografts. Furthermore, in vitro proliferation rates of G361 cells were decreased in PEDF-transfected cells. PEDF proteins showed dose-dependent induced growth retardation and apoptotic cell death in nontransfected G361 cells, which were completely prevented by treatment with antibodies against the Fas ligand. Our present study highlights two beneficial effects of PEDF treatment on melanoma growth and expansion; one is the suppression of tumor angiogenesis, and the other is induction of Fas ligand-dependent apoptosis in tumor cells. PEDF therefore might be a promising novel therapeutic agent for treatment of patients with melanoma.

CTACK/CCL27 accelerates skin regeneration via accumulation of bone marrow-derived keratinocytes.

Recent studies have suggested that bone marrow (BM) cells transdifferentiate to regenerate a variety of cellular lineages. Due to the relatively small population of BM‐derived cells in each organ, it is still controversial whether these BM‐derived cells are really present in sufficient numbers for effective function. Conversely, it is speculated that chemokine/chemokine receptor interactions mediate this migration of the tissue‐specific precursor cells from BM into the target tissue. Here, we show that cutaneous T‐cell attracting chemokine (CTACK)/CCL27 is the major regulator involved in the migration of keratinocyte precursor cells from BM into skin. By screening various chemokine expression patterns, we demonstrated that CTACK is constitutively expressed in normal skin and upregulated in wounds and that approximately 20% of CD34+ BM cells expressed CCR10, the ligand for CTACK. Intradermal injection of CTACK/CCL27 into the periphery of skin wounds significantly enhanced BM‐derived keratinocyte (BMDK) migration, and CTACK/CCL27 neutralizing antibody inhibited this BMDK migration. Furthermore, increased BMDK migration caused by CTACK/CCL27 significantly accelerated the wound‐healing process without any influence over either angiogenesis or keratinocyte proliferation. These results provide direct evidence that recruitment of BM keratinocyte precursor cells to the skin is regulated by specific chemokine/chemokine receptor interactions, making possible the development of new regenerative therapeutic strategies.

Induction of Therapeutically Relevant Cytotoxic T Lymphocytes in Humans by Percutaneous Peptide Immunization

Percutaneous peptide immunization (PPI) is a simple and noninvasive immunization approach to induce potent CTL responses by peptide delivery via skin with the stratum corneum removed. After such a barrier disruption in human skin, epidermal Langerhans cells, although functionally matured through the up-regulation of HLA expression and costimulatory molecules, were found to emigrate with a reduced number of dendrites. CD8(+) populations binding to MHC-peptide tetramers/pentamers and producing IFN-gamma appeared in the blood after PPI with HLA class I-restricted antigenic peptides. PPI with melanoma-associated peptides reduced the lesion size and suppressed further development of tumors in four of seven patients with advanced melanoma. These beneficial effects were accompanied by the generation of circulating CTLs with in vitro cytolytic activity and extensive infiltration of tetramer/pentamer-binding cells into regressing lesions. PPI elicited neither local nor systemic toxicity or autoimmunity, except for vitiligo, in patients with melanoma. Therefore, PPI represents a novel therapeutic intervention for cancer in the clinical setting.

A Novel Active Mouse Model for Bullous Pemphigoid Targeting Humanized Pathogenic Antigen

Bullous pemphigoid (BP), the most common autoimmune blistering disease, is caused by autoantibodies against type XVII collagen (COL17). To establish an active stable BP animal model that demonstrates the persistent inflammatory skin lesions initiated by the anti-human COL17 Abs, we used COL17-humanized (COL17m−/−,h+) mice that we recently produced. First, we generated immunodeficient Rag-2−/−/COL17–humanized mice by crossing Rag-2−/− mice with COL17-humanized mice. Then, splenocytes from wild-type mice that had been immunized by grafting of human COL17-transgenic mouse skin were transferred into Rag-2−/−/COL17–humanized mice. The recipient mice continuously produced anti-human COL17 IgG Abs in vivo and developed blisters and erosions corresponding to clinical, histological, and immunopathological features of BP, although eosinophil infiltration, one of the characteristic histological findings observed in BP patients, was not detected in the recipients. Although the depletion of CD8+ T cells from the immunized splenocytes was found to produce no effects in the recipients, the depletion of CD4+ T cells as well as CD45R+ B cells was found to inhibit the production of anti-human COL17 IgG Abs in the recipients, resulting in no apparent clinical phenotype. Furthermore, we demonstrated that cyclosporin A significantly suppressed the production of anti-human COL17 IgG Abs and prevented the development of the BP phenotype in the treated recipients. Although this model in an immunodeficient mouse does not exactly reproduce the induction mechanism of BP in human patients, this unique experimental system targeting humanized pathogenic Ag allows us to investigate ongoing autoimmune responses to human molecules in experimental animal models.

Beta defensin-3 engineered epidermis shows highly protective effect for bacterial infection

Defensins are small cationic proteins that harbor broad-spectrum microbicidal activity against bacteria, fungi and viruses. This study examines the effects on pathogens of the epidermis engineered to express human beta-defensin 3 (HBD3) to combat bacterial infections. First, we examined the localization of HBD3 in the epidermis and observed HBD3 in the intercellular spaces and lamellar bodies of the upper epidermal layers. This result showed HBD3 expressed and assembled in the outer layers of the epidermis was suspected to counter the invading microorganisms. Next, we established a keratinocyte cell line that stably expressed HBD3 and found that the culture medium showed antibacterial activity. Furthermore, we prepared an epidermal sheet of these cells with the HBD3 gene and grafted this onto a dermal wound on a nude rat. The HBD3 engineered epidermis demonstrated significant antimicrobial activity. Skin ulcers without epidermis are constantly exposed to invading microorganisms. Biopsy samples of re-epithelizing epidermis from patients with skin ulcers were collected, and HBD3 mRNA level measured in the epidermis. The epidermal samples from the ulcer skin expressed 2.5 times higher levels of HBD3 transcript than those in the control skin. These results, taken together, indicate that the therapeutic introduction of the HBD3 gene into somatic cells may provide a new gene therapy strategy for intractable infectious diseases.

Prevalent LIPH founder mutations lead to loss of P2Y5 activation ability of PA-PLA1α in autosomal recessive hypotrichosis†

Autosomal recessive hypotrichosis (ARH) is characterized by sparse hair on the scalp without other abnormalities. Three genes, DSG4, LIPH, and LPAR6 (P2RY5), have been reported to underlie ARH. We performed a mutation search for the three candidate genes in five independent Japanese ARH families and identified two LIPH mutations: c.736T>A (p.Cys246Ser) in all five families, and c.742C>A (p.His248Asn) in four of the five families. Out of 200 unrelated control alleles, we detected c.736T>A in three alleles and c.742C>A in one allele. Haplotype analysis revealed each of the two mutant alleles is derived from a respective founder. These results suggest the LIPH mutations are prevalent founder mutations for ARH in the Japanese population. LIPH encodes PA‐PLA1α (LIPH), a membrane‐associated phosphatidic acid‐preferring phospholipase A1α. Two residues, altered by these mutations, are conserved among PA‐PLA1α of diverse species. Cys246 forms intramolecular disulfide bonds on the lid domain, a crucial structure for substrate recognition, and His248 is one amino acid of the catalytic triad. Both p.Cys246Ser‐ and p.His248Asn‐PA‐PLA1α mutants showed complete abolition of hydrolytic activity and had no P2Y5 activation ability. These results suggest defective activation of P2Y5 due to reduced 2‐acyl lysophosphatidic acid production by the mutant PA‐PLA1α is involved in the pathogenesis of ARH. Hum Mutat 31:1–9, 2010.

What's new in bullous pemphigoid.

Bullous pemphigoid (BP) is the most common autoimmune blistering disease. BP patients have autoantibodies against type XVII collagen (COL17, also called BP180 or BPAG2), a type II transmembrane protein that spans the lamina lucida and projects into the lamina densa of the epidermal basement membrane. The non‐collagenous 16A domain of COL17 is considered to contain pathogenic epitopes of BP. The transfer of immunoglobulin (Ig)G from BP patients fails to cause blisters on mouse skin probably due to differences between humans and mice in the amino acid sequence of NC16A pathogenic epitope of COL17. Passive transfer of rabbit IgG antibodies against the murine homolog of human COL17 NC16A triggers immune reactions to COL17 in mice, including complement activation, mast cell degranulation and neutrophilic infiltration, resulting in dermal–epidermal separation. Recent studies using COL17‐humanized mice that express human COL17 but lack murine COL17 were the first to demonstrate the pathogenicity of anti‐COL17 human BP IgG autoantibodies in vivo. These new findings provide a greater understanding of BP pathomechanisms and facilitate the development of novel specific and efficient therapeutic strategies for BP.

Successful treatment of severe recalcitrant erosive oral lichen planus with topical tacrolimus

Oral lichen planus (LP) is a severe, painful form of LP, and is often resistant to topical corticosteroid therapy. Recently, open trials demonstrated that topical tacrolimus therapy was effective for the treatment of chronic erosive oral LP. We report two cases with severe recalcitrant erosive oral LP, who dramatically benefited from topical tacrolimus therapy. In case 1, a 64‐year‐old man presented with a 5‐month history of painful erosions on his entire lower lip and buccal mucosa. Physical and histological examination confirmed a diagnosis of LP. He experienced rapid relief from pain and a dramatic improvement was obtained within 5 weeks of topical tacrolimus treatment. No significant irritation was observed and blood tacrolimus level was kept within a safe level (2.5 ng/mL). In case 2, a 68‐year‐old man developed painful erosions on his right lower lip and buccal mucosa 2 months before his arrival at our hospital. Histopathological analysis confirmed a diagnosis of oral LP. He experienced a rapid dramatic improvement of both lesions within 4 weeks of the start of tacrolimus application. No significant irritation or recurrence was observed. Thus, topical tacrolimus is suggested as a well‐tolerated, effective therapy for oral LP.