EXPERIMENTAL DERMATOLOGY Desmosomes exhibit site-specific features in human palm skin Eady RAJ. Desmosomes exhibit site-specific features in human palm Therefore, we sought evidence for such differences by examining hereditary disorders (palmoplantar kera

palms and soles to withstand constant mechanical stress. They may als

Keratin 9 Is Required for the Structural Integrity and Terminal Differentiation of the Palmoplantar Epidermis

Keratin 9 (K9) is a type I intermediate filament protein whose expression is confined to the suprabasal layers of the palmoplantar epidermis. Although mutations in the K9 gene are known to cause epidermolytic palmoplantar keratoderma, a rare dominant-negative skin disorder, its functional significance is poorly understood. To gain insight into the physical requirement and importance of K9, we generated K9-deficient (Krt9−/−) mice. Here, we report that adult Krt9−/−mice develop calluses marked by hyperpigmentation that are exclusively localized to the stress-bearing footpads. Histological, immunohistochemical, and immunoblot analyses of these regions revealed hyperproliferation, impaired terminal differentiation, and abnormal expression of keratins K5, K14, and K2. Furthermore, the absence of K9 induces the stress-activated keratins K6 and K16. Importantly, mice heterozygous for the K9-null allele (Krt9+/−) show neither an overt nor histological phenotype, demonstrating that one Krt9 allele is sufficient for the developing normal palmoplantar epidermis. Together, our data demonstrate that complete ablation of K9 is not tolerable in vivo and that K9 is required for terminal differentiation and maintaining the mechanical integrity of palmoplantar epidermis

A Homozygous Nonsense Mutation within the Dystonin Gene Coding for the Coiled-Coil Domain of the Epithelial Isoform of BPAG1 Underlies a New Subtype of Autosomal Recessive Epidermolysis Bullosa Simplex

Epidermolysis bullosa (EB) is a group of autosomal dominant and recessive blistering skin diseases in which pathogenic mutations have been reported in 13 different genes encoding structural proteins involved in keratinocyte integrity, as well as cell–matrix or cell–cell adhesion. We now report an inherited skin fragility disorder with a homozygous nonsense mutation in the dystonin gene (DST) that encodes the coiled-coil domain of the epithelial isoform of bullous pemphigoid antigen 1, BPAG1-e (also known as BP230). The mutation, p.Gln1124X, leads to the loss of hemidesmosomal inner plaques and a complete absence of skin immunostaining for BPAG1-e, as well as reduced labeling for plectin, the β4 integrin subunit, and for type XVII collagen. The 38-year-old affected individual has lifelong generalized trauma-induced spontaneous blisters and erosions, particularly around the ankles. In addition, he experiences episodic numbness in his limbs, which started at the age of 37 years. These neurological symptoms may also be due to DST gene mutation, although he has a concomitant diagnosis of CADASIL (cerebral arteriopathy, autosomal dominant, with subcortical infarcts and leukoencephalopathy), a cerebral small-vessel arteriopathy, which thus complicates the genotype–phenotype interpretation. With regard to skin blistering, the clinicopathological findings expand the molecular basis of EB by identifying BPAG1-e pathology in a new form of autosomal recessive EB simplex