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OBJECTIVES: To investigate molecular mechanisms of nicastrin (NCSTN) mutations inducing acne inversa (AI). METHODS: New and old lesional and non-lesional skin samples were obtained from an AI patient. Healthy skin samples were obtained from the buttocks of 100 non-AI patients. Hematoxylin-eosin staining and immunohistochemistry of NCSTN protein were examined. All exon-intron and exon boundary sequences were polymerase chain reaction (PCR) -amplified and sequenced. Bioinformatic analyses of NCSTN 3'-untranslated regions (3'UTR) were conducted using RegRNA2.0. 3'UTR of NCSTN was cloned vector of psiCHECK-2 vector; the mutant 3'UTR NCSTN-psiCHECK-2 was constructed on a template of NCSTN 3'UTR. A dual-luciferase reporter gene assay, real-time reverse transcription (qRT)-PCR and Western blot analysis were conducted to evaluate functional changes associated with the mutation. RESULTS: We identified a novel deletion mutation of the NCSTN gene in the NCSTN 3'UTR region (designated c.2584-2585del CA) at the binding site of human micro-RNA-155 (hsa-miR-155). Levels of NCSTN protein were potently lower in epidermis and hair follicles of AI patients with lesions than in healthy skin. The hsa-miR-155+mutant NCSTN significantly downregulated in dual luciferase assay, qRT-PCR, and Western blot. The novel deletion mutation was confirmed to be a pathological cause of AI. CONCLUSIONS: miR-155 downregulates the expression of NCSTN by binding NCSTN 3'UTR, providing a possible new mechanism of loss of NCSTN function in AI patients. hsa-miR-155 functions as a promoter in AI, and is a potential therapy target for AI.
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BACKGROUND: Localized autosomal recessive hypotrichosis (LAH) is an inherited rare disease caused by DSG4 mutations, characterized by short, sparse, brittle hair affecting restricted areas such as the scalp, trunk, and extremities. To date, DSG4 mutations have been reported in 14 pedigrees of LAH overlapping with monilethrix. METHODS: To clarify the etiology of hair defects for a 2-year-old Chinese girl, peripheral blood, skin, and hair samples were collected, and skin immunohistochemistry, electron microscopy (scanning and transmission types), Vivascope confocal microscopy, and DSG4 sequencing were investigated. RESULTS: The patient presented sparse hairs of various length and follicular hyperkeratotic papules. Eyebrows and lashes were also involved (broke or shed). The biopsy specimen revealed curled ingrown hair shafts within the hair follicle and keratin-filled hair follicles. Scanning electron microscopy revealed hair cuticle loosely and irregularly arranged, as well as a marked warping, curling, cracking, and detachment of hair cuticle. Transmission electron microscopy indicated notable dysadhesion between cells of the outer root sheath. A homozygous mutation A1103G in exon 8 of DSG4 was identified in the patient, resulting in the substitution of an aspartic acid by glycine (D323G) and reduced DSG4 expression in the affected scalp epidermis. CONCLUSIONS: The homozygous A1103G mutation in DSG4 was responsible for the disease development.