Tonja Kartasova

Transglutaminase Cross-linking Properties of the Small Proline-rich 1 Family of Cornified Cell Envelope Proteins INTEGRATION WITH LORICRIN

Small proline-rich 1 (SPR1) proteins are important for barrier function in stratified squamous epithelia. To explore their properties, we expressed in bacteria a recombinant human SPR1 protein and isolated native SPR1 proteins from cultured mouse keratinocytes. By circular dichroism, they possess no α or β structure but have some organized structure associated with their central peptide repeat domain. The transglutaminase (TGase) 1 and 3 enzymes use the SPR1 proteins as complete substrates in vitro but in different ways: head domain A sequences at the amino terminus were used preferentially for cross-linking by TGase 3, whereas those in head domain B sequences were used for cross-linking by TGase 1. The TGase 2 enzyme cross-linked SPR1 proteins poorly. Together with our data base of 141 examples of in vivo cross-links between SPRs and loricrin, this means that both TGase 1 and 3 are required for cross-linking SPR1 proteins in epithelia in vivo. Double in vitro cross-linking experiments suggest that oligomerization of SPR1 into large polymers can occur only by further TGase 1 cross-linking of an initial TGase 3 reaction. Accordingly, we propose that TGase 3 first cross-links loricrin and SPRs together to form small interchain oligomers, which are then permanently affixed to the developing CE by further cross-linking by the TGase 1 enzyme. This is consistent with the known consequences of diminished barrier function in TGase 1 deficiency models.

Mouse Sprr locus: a tandem array of coordinately regulated genes.

Small PRoline Rich (SPRR) proteins are primary constituents of the cornified cell envelope, necessary to create a permeability barrier across the bodys surface. The family of murine Sprr genes has diversified, enabling the body to construct slightly different types of barriers as needed for backskin, mouth, tongue, etc. The Sprr genes have remained tandemly arrayed within 220 kb on mouse Chromosome (Chr) 3. On the basis of sequence similarity, we identified a novel member of the family, the murine ortholog of SPRR4. We present a sequence-verified physical map of the region and identify the complete coding sequence of the Sprr2 genes. Highly specific RNase protection assays based on the 3′ untranslated sequences were used to query the expression of these genes in a model of barrier deficiency, mice with a targeted ablation of the transcription factor Kruppel-like factor 4 (Klf4−/−). Twelve of the 15 members of the Sprr family are upregulated in the Klf4−/− mice. The sequences upstream of the start of transcription of the Sprr2 genes contain common regulatory elements conserved with the human SPRR2 genes. The clustering of the genes and their misregulation suggest that these genes may be held together in a tandem array to allow coordinate regulation.

STRUCTURAL AND TRANSGLUTAMINASE SUBSTRATE PROPERTIES OF THE SMALL PROLINE-RICH 2 FAMILY OF CORNIFIED CELL ENVELOPE PROTEINS

The small proline-rich (SPR) proteins are components of the cornified cell envelope of stratified squamous epithelia and become cross-linked to other proteins by transglutaminases (TGases). The SPR2 family is the most complex, as it consists of several differentially expressed members of the same size. To explore their physical and cross-linking properties, we have expressed in bacteria a human SPR2 family member, and purified it to homogeneity. By circular dichroism, it possesses no α or β structure but has some organized structure associated with the central peptide repeat domain. The TGase 1, 2, and 3 enzymes expressed in epithelia use the recombinant SPR2 protein as a complete substratein vitro, but with widely differing kinetic efficiencies, and in different ways. With TGase 1, only one glutamine on the head domain and one lysine on the tail domain were used for limited interchain cross-linking. With TGase 3, multiple head and tail domain residues were used for extensive interchain cross-linking. The total usage of glutamine and lysine residues in vitro by TGase 3 was similar to that seen in earlier in vivo studies. We conclude that SPR2 proteins are cross-linked in epithelia primarily by the TGase 3 enzyme, a minor extent by TGase 1, and probably not by TGase 2.

Differentiation-associated localization of small proline-rich protein in normal and diseased human skin

Summary The expression of SPRR (small proline‐rich protein) was investigated in normal human skin and in diseased skin from patients with psoriasis, squamous cell carcinoma, basal cell epithelioma. Naevus pigmentosus, ichthyosis vulgaris and several inflammatory skin diseases, by immunohistochemical staining. A polyclonal antibody was raised against a synthetic peptide for a C‐terminal common region for SPRR l and SPRR 3. In immunoblot analysis, a positive band of 18kDa was detected, which showed the presence of SPRR l in human epidermal keratinocytes. In normal epidermis, positive staining for SPRK was observed in keratinocytes in the granular layer and the uppermost or two spinous cell layers, with no staining of the other spinous or basal layers. The staining was obvious at the cell periphery, weak at the cytoplasm, and absent in the nucleus. Staining was observed in several outer layers of the follicular infundibulum to the isthmus. No staining was detected in the inner root sheath of the hair follicles, hair matrix, sebaceous gland, eccrine gland, eccrine duct, melanocytes. Langerhans cells or fibroblasts. The arrectores pilorum, striated muscles, muscle layers of vessels, and myoepithelia of eccrine gland, were weakly stained. In psoriatic skin, stained keratinocytes were distributed in the spinous cell layers except for the basal layer, in ichthyosis vulgaris. SPRR was barely expressed in the uppermost living cell layers of the epidermis in epidermolytic hyperkeratosis. degenerated squamous cells widely expressed SPRR. In Dariers disease, dyskeratolic cells were clearly stained. In squamous cell carcinoma, staining was observed in keratotic cells around horny pearls. In basal cell epithelioma, naevus pigmentosus, and malignant melanoma, the tumour cells or naevus cells were not stained. The distribution of SPRR was similar to that of involucrin in normal and several diseased skin, except for ichthyosis vulgaris. We conclude that SPRR is expressed in close association with epidermal differentiation in normal skin and skin diseases. The alteration of the expression of the proteins correlated to terminal differentiation, and differs from disease to disease.

DMSO induces apoptosis in SV40-transformed human keratinocytes, but not in normal keratinocytes

We found that dimethyl-sulfoxide (DMSO) at concentrations of 2.5% induced apoptosis in SV40-immortalized human keratinocytes, while normal keratinocytes were arrested at the boundary of G1/S phase under the same conditions. DMSO-induced apoptosis in SV-40 immortalized keratinocytes was not associated with change in phosphorylated state of the retinoblastoma susceptibility gene. When SV40-immortalized cells were treated with 2.5% DMSO, dissociation of the complex was observed by immunoblotting of SV40 T antigen from immunoprecipitated p53 protein fraction.