Alfred T. Lane

Neonatal lupus erythematosus (NLE) is an inflammatory disorder of neonates characterized by transient cutaneous lesions and/or congenital heart block. The cutaneous lesions usually heal with minimal scarring, but healing may be delayed for many months in occasional cases. Photosensitivity is recognized as a component of this syndrome. A large proportion of this maternal population is asymptomatic, although the mothers' potential risk for developing CTD in the future remains to be determined. Moreover, this maternal group may exhibit a tendency to fetal wastage. La(SSB) and/or Ro(SSA) antibody is almost universally present in the sera of the neonatal lupus mothers and their infants. Since these antibodies may have a pathogenetic role in NLE, screening of infants with isolated CHB and/or cutaneous lesions suggestive of LE, and their mothers, for the presence of Ro(SSA) and La(SSB) antibodies is strongly recommended. HLA studies reveal that infants of Ro-positive mothers bearing the HLA, A1, B8, DR3, MB2 and MT2 phenotypes are at increased risk of developing neonatal lupus, in sharp contrast to infants of Ro-positive mothers bearing the DR2 and/or MB1/MT1 phenotypes. Recognition of the protean manifestations of this complex disorder by obstetricians, pediatricians, cardiologists, and dermatologists will undoubtedly lead to increased detection of NLE and afford further opportunity to elucidate more fully the etiology of this syndrome.

Importance: Recessive dystrophic epidermolysis bullosa (RDEB) is a devastating, often fatal, inherited blistering disorder caused by mutations in the COL7A1 gene encoding type VII collagen. Support and palliation are the only current therapies. Objective: To evaluate the safety and wound outcomes following genetically corrected autologous epidermal grafts in patients with RDEB. Design, Setting, and Participants: Single-center phase 1 clinical trial conducted in the United States of 4 patients with severe RDEB with a measured area of wounds suitable for grafting of at least 100 cm2. Patients with undetectable type VII collagen keratinocyte expression were excluded. Interventions: Autologous keratinocytes isolated from biopsy samples collected from 4 patients with RDEB were transduced with good manufacturing practice-grade retrovirus carrying full-length human COL7A1 and assembled into epidermal sheet grafts. Type VII collagen gene-corrected grafts (approximately 35 cm2) were transplanted onto 6 wounds in each of the patients (n = 24 grafts). Main Outcomes and Measures: The primary safety outcomes were recombination competent retrovirus, cancer, and autoimmune reaction. Molecular correction was assessed as type VII collagen expression measured by immunofluorescence and immunoelectron microscopy. Wound healing was assessed using serial photographs taken at 3, 6, and 12 months after grafting. Results: The 4 patients (mean age, 23 years [range, 18-32 years]) were all male with an estimated body surface area affected with RDEB of 4% to 30%. All 24 grafts were well tolerated without serious adverse events. Type VII collagen expression at the dermal-epidermal junction was demonstrated on the graft sites by immunofluorescence microscopy in 9 of 10 biopsy samples (90%) at 3 months, in 8 of 12 samples (66%) at 6 months, and in 5 of 12 samples (42%) at 12 months, including correct type VII collagen localization to anchoring fibrils. Wounds with recombinant type VII collagen graft sites displayed 75% or greater healing at 3 months (21 intact graft sites of 24 wound sites; 87%), 6 months (16/24; 67%), and 12 months (12/24; 50%) compared with baseline wound sites. Conclusions and Relevance: In this preliminary study of 4 patients with RDEB, there was wound healing in some type VII collagen gene-corrected grafts, but the response was variable among patients and among grafted sites and generally declined over 1 year. Long-term follow-up is necessary for these patients, and controlled trials are needed with a broader range of patients to better understand the potential long-term efficacy of genetically corrected autologous epidermal grafts. Trial Registration: clinicaltrials.gov Identifier: NCT01263379.

Patients with recessive dystrophic epidermolysis bullosa (RDEB) lack functional type VII collagen owing to mutations in the gene COL7A1 and suffer severe blistering and chronic wounds that ultimately lead to infection and development of lethal squamous cell carcinoma. The discovery of induced pluripotent stem cells (iPSCs) and the ability to edit the genome bring the possibility to provide definitive genetic therapy through corrected autologous tissues. We generated patient-derived COL7A1-corrected epithelial keratinocyte sheets for autologous grafting. We demonstrate the utility of sequential reprogramming and adenovirus-associated viral genome editing to generate corrected iPSC banks. iPSC-derived keratinocytes were produced with minimal heterogeneity, and these cells secreted wild-type type VII collagen, resulting in stratified epidermis in vitro in organotypic cultures and in vivo in mice. Sequencing of corrected cell lines before tissue formation revealed heterogeneity of cancer-predisposing mutations, allowing us to select COL7A1-corrected banks with minimal mutational burden for downstream epidermis production. Our results provide a clinical platform to use iPSCs in the treatment of debilitating genodermatoses, such as RDEB.

Lymphatic malformations are rare but can cause significant clinical problems in addition to cosmetic disfigurement. Sildenafil was used in a child whose pulmonary hypertension was caused by lymphatic malformation; the result was a marked decrease in the lymphatic malformation.