Masahiro Miyai scite author profile

Kallikrein-related peptidases (KLKs) have critical roles in corneocyte desquamation and are regulated by lymphoepithelial Kazal-type inhibitor (LEKTI). However, it is unclear how these proteases are activated and how activated KLKs are released from LEKTI in the upper cornified layer. Recently, we reported cloning of a PRSS3 gene product, keratinocyte-specific mesotrypsin, from a cDNA library. We hypothesized that mesotrypsin is involved in the desquamation process, and the aim of the present study was to test this idea by examining the effects of mesotrypsin on representative desquamation-related enzymes pro-KLK5 and pro-KLK7. Incubation of mesotrypsin and these zymogens resulted in generation of the active forms. KLK activities were effectively inhibited by recombinant LEKTI domains D2, D2-5, D2-6, D2-7, D5, D6, D6-9, D7, D7-9, and D10-15, whereas mesotrypsin activity was not susceptible to these domains, and in fact degraded them. Immunoelectron microscopy demonstrated that mesotrypsin was localized in the cytoplasm of granular cells and intercellular spaces of the cornified layer. Proximity ligation assay showed close association between mesotrypsin and KLKs in the granular to cornified layers. Age-dependency analysis revealed that mesotrypsin was markedly downregulated in corneocyte extract from donors in their sixties, compared with younger donors. Collectively, our findings suggest that mesotrypsin contributes to the desquamation process by activating KLKs and degrading the intrinsic KLKs' inhibitor LEKTI.

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Identification of an S100A8 Receptor Neuroplastin-β and its Heterodimer Formation with EMMPRIN

Sakaguchi

Yamamoto

Miyai

et al. 2016

Journal of Investigative Dermatology

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We previously reported a positive feedback loop between S100A8/A9 and proinflammatory cytokines mediated by extracellular matrix metalloproteinase inducer, an S100A9 receptor. Here, we identify neuroplastin-β as an unreported S100A8 receptor. Neuroplastin-β and extracellular matrix metalloproteinase inducer form homodimers and a heterodimer, and they are co-localized on the surface of cultured normal human keratinocytes. Knockdown of both receptors suppressed cell proliferation and proinflammatory cytokine induction. Upon stimulation with S100A8, neuroplastin-β recruited GRB2 and activated extracellular signal-regulated kinase, resulting in keratinocyte proliferation. Keratinocyte proliferation in response to inflammatory stimuli was accelerated in involucrin promoter-driven S100A8 transgenic mice. Further, S100A8 and S100A9 were strongly up-regulated and co-localized in lesional skin of atopic dermatitis patients. Our results indicate that neuroplastin-β and extracellular matrix metalloproteinase inducer form a functional heterodimeric receptor for S100A8/A9 heterodimer, followed by recruitment of specific adaptor molecules GRB2 and TRAF2, and this signaling pathway is involved in activation of both keratinocyte proliferation and skin inflammation in atopic skin. Suppression of this pathway might have potential for treatment of skin diseases associated with chronic inflammation such as atopic dermatitis.

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MafB interacts with Gcm2 and regulates parathyroid hormone expression and parathyroid development

Kamitani-Kawamoto

Hamada

Moriguchi

et al. 2011

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Serum calcium and phosphate homeostasis is critically regulated by parathyroid hormone (PTH) secreted by the parathyroid glands. Parathyroid glands develop from the bilateral parathyroid-thymus common primordia. In mice, the expression of transcription factor Glial cell missing 2 (Gcm2) begins in the dorsal/anterior part of the primordium on embryonic day 9.5 (E9.5), specifying the parathyroid domain. The parathyroid primordium then separates from the thymus primordium and migrates to its adult location beside the thyroid gland by E15.5. Genetic ablation of gcm2 results in parathyroid agenesis in mice, indicating that Gcm2 is essential for early parathyroid organogenesis. However, the regulation of parathyroid development at later stages is not well understood. Here we show that transcriptional activator v-maf musculoaponeurotic fibrosarcoma oncogene homologue B (MafB) is developmentally expressed in parathyroid cells after E11.5. MafB expression was lost in the parathyroid primordium of gcm2 null mice. The parathyroid glands of mafB þ/À mice were mislocalized between the thymus and thyroid. In mafB À/À mice, the parathyroid did not separate from the thymus. Furthermore, in mafB À/À mice, PTH expression and secretion were impaired; expression levels of renal cyp27b1, one of the target genes of PTH, was decreased; and bone mineralization was reduced. We also demonstrate that although Gcm2 alone does not stimulate the PTH gene promoter, it associates with MafB to synergistically activate PTH expression. Taken together, our results suggest that MafB regulates later steps of parathyroid development, that is, separation from the thymus and migration toward the thyroid. MafB also regulates the expression of PTH in cooperation with Gcm2. ß

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Transcription Factor MafB Coordinates Epidermal Keratinocyte Differentiation

Miyai

Hamada

Moriguchi

et al. 2016

Journal of Investigative Dermatology

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Mammalian epidermis is a stratified epithelium composed of distinct layers of keratinocytes. The outermost cornified layer is a primary barrier that consists of a cornified envelope, an insoluble structure assembled by cross-linked scaffold proteins, and a surrounding mixture of lipids. Skin keratinocytes undergo a multistep differentiation process, but the mechanism underlying this process is not fully understood. We demonstrate that the transcription factor MafB is expressed in differentiating keratinocytes in mice and is transcriptionally upregulated upon human keratinocyte differentiation in vitro. In MafB-deficient mice, epidermal differentiation was partially impaired and the cornified layer was thinner than in wild-type mice. On the basis of transcriptional profiling, we detected reduced expression levels of a subset of cornified envelope genes, for example, filaggrin and repetin, in the MafB(-/-) epidermis. By contrast, the expression levels of lipid metabolism-related genes, such as Alox12e and Smpd3, increased. The upregulated genes in the MafB(-/-) epidermis were enriched for putative target genes of the transcription factors Gata3, Grhl3, and Klf4. Immunohistochemical analysis of skin biopsy samples revealed that the expression levels of filaggrin and MafB were significantly reduced in patients with human atopic dermatitis and psoriasis vulgaris. Our results indicate that MafB is a component of the gene expression program that regulates epidermal keratinocyte differentiation.

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Kallikrein-related Peptidase-7 Regulates Caspase-14 Maturation during Keratinocyte Terminal Differentiation by Generating an Intermediate Form

Yamamoto

Miyai

Matsumoto

et al. 2012

Journal of Biological Chemistry

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Masahiro Miyai

Keratinocyte-Specific Mesotrypsin Contributes to the Desquamation Process via Kallikrein Activation and LEKTI Degradation

Identification of an S100A8 Receptor Neuroplastin-β and its Heterodimer Formation with EMMPRIN

MafB interacts with Gcm2 and regulates parathyroid hormone expression and parathyroid development

Transcription Factor MafB Coordinates Epidermal Keratinocyte Differentiation

Kallikrein-related Peptidase-7 Regulates Caspase-14 Maturation during Keratinocyte Terminal Differentiation by Generating an Intermediate Form

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