Shinkichi Irie

Rap1 Is a Potent Activation Signal for Leukocyte Function-Associated Antigen 1 Distinct from Protein Kinase C and Phosphatidylinositol-3-OH Kinase

ABSTRACT To identify the intracellular signals which increase the adhesiveness of leukocyte function-associated antigen 1 (LFA-1), we established an assay system for activation-dependent adhesion through LFA-1/intercellular adhesion molecule 1 ICAM-1 using mouse lymphoid cells reconstituted with human LFA-1 and then introduced constitutively active forms of signaling molecules. We found that the phorbol myristate acetate (PMA)-responsive protein kinase C (PKC) isotypes (α, βI, βII, and δ) or phosphatidylinositol-3-OH kinase (PI 3-kinase) itself activated LFA-1 to bind ICAM-1. H-Ras and Rac activated LFA-1 in a PI 3-kinase-dependent manner, whereas Rho and R-Ras had little effect. Unexpectedly, Rap1 was demonstrated to function as the most potent activator of LFA-1. Distinct from H-Ras and Rac, Rap1 increased the adhesiveness independently of PI 3-kinase, indicating that Rap1 is a novel activation signal for the integrins. Rap1 induced changes in the conformation and affinity of LFA-1 and, interestingly, caused marked LFA-1/ICAM-1-mediated cell aggregation. Furthermore, a dominant negative form of Rap1 (Rap1N17) inhibited T-cell receptor-mediated LFA-1 activation in Jurkat T cells and LFA-1/ICAM-1-dependent cell aggregation upon differentiation of HL-60 cells into macrophages, suggesting that Rap1 is critically involved in physiological processes. These unique functions of Rap1 in controlling cellular adhesion through LFA-1 suggest a pivotal role as an immunological regulator.

Elongated dermatan sulphate in post-inflammatory healing skin distributes among collagen fibrils separated by enlarged interfibrillar gaps.

It has been reported that the disaccharide composition of dermatan sulphate shows transient changes after epicutaneous application of the hapten 2,4-dinitrofluorobenzene to mouse skin, and that these changes are most conspicuous in healing skin on day 15 after chemical insult [Kuwaba, Nomura, Irie and Koyama (1999) J. Dermatol. Sci. 19, 23-30]. In the present study it was found that the molecular size of dermatan sulphate was increased on day 15 after hapten application. The molecular size of decorin increased in healing skin, whereas the size of dermatan-sulphate-depleted core protein did not increase. The length and localization of decorin dermatan sulphate were investigated by electron microscopy. Dermatan sulphate filaments oriented orthogonally to collagen fibrils were longer in healing skin than in control skin. In control skin, dermatan sulphate filaments were found among tightly packed collagen fibrils. In contrast, the interfibrillar gaps between each collagen fibril were enlarged in healing skin; elongated dermatan sulphate filaments extended from the surface of collagen fibrils across the enlarged gap. These results suggest that the increase in molecular size of decorin dermatan sulphate is important in organizing collagen fibrils separated by enlarged interfibrillar gaps in healing skin.

Enhancement of procollagen biosynthesis by p180 through augmented ribosome association on the endoplasmic reticulum in response to stimulated secretion

A coiled-coil microtubule-bundling protein, p180, was originally reported as a ribosome-binding protein on the rough endoplasmic reticulum (ER) and is highly expressed in secretory tissues. Recently, we reported a novel role for p180 in the trans-Golgi network (TGN) expansion following stimulated collagen secretion. Here, we show that p180 plays a key role in procollagen biosynthesis and secretion in diploid fibroblasts. Depletion of p180 caused marked reductions of secreted collagens without significant loss of the ER membrane or mRNA. Metabolic labeling experiments revealed that the procollagen biosynthetic activity was markedly affected following p180 depletion. Moreover, loss of p180 perturbs ascorbate-stimulated de novo biosynthesis mainly in the membrane fraction with a preferential secretion defect of large proteins. At the EM level, one of the most prominent morphological features of p180-depleted cells was insufficient ribosome association on the ER membranes. In contrast, the ER of control cells was studded with numerous ribosomes, which were further enhanced by ascorbate. Similarly biochemical analysis confirmed that levels of membrane-bound ribosomes were altered in a p180-dependent manner. Taken together, our data suggest that p180 plays crucial roles in enhancing collagen biosynthesis at the entry site of the secretory compartments by a novel mechanism that mainly involves facilitating ribosome association on the ER.

Functional CD40 ligand is expressed on epidermal Langerhans cells.

Epidermal Langerhans cells (LC) are bone‐marrow‐derived major histocompatibility complex (MHC) class II antigen‐expressing antigen‐presenting cells (APC) that comprise 1–3% of total epidermal cells (EC). LC express high levels of MHC class II antigen and augment costimulatory molecules such as B7‐1, B7‐2 during culture. In a previous report, using purified murine LC, we showed that freshly prepared LC (fLC) do not express CD40, whereas cLC express CD40. Tumor necrosis factor α (TNF‐α) enhanced CD40 expression on LC during culture. We examined the expression of CD40L on LC and found that both fLC and cLC expressed mRNA for CD40L. FACS analysis revealed that cLC cultured for 36 h expressed CD40L but fLC did not. When we examined the cytoplasmic CD40L, however, both fLC and cLC expressed cytoplasmic CD40L. TNF‐α, which up‐regulated CD40 expression on LC during culture, did not modulate CD40L. Co‐culture of purified LC with anti‐CD40L markedly inhibited the up‐regulation of B7‐1 expression on LC and caused partial inhibition of B7‐2 expression during culture. These results indicate that CD40L is expressed on cLC, and that CD40L on LC modulates the expression of costimulatory molecules such as B7‐1 and B7‐2 on LC. J. Leukoc. Biol. 66: 281–285; 1999.

Cloning of a Novel Collagenase Gene from the Gram-Negative Bacterium Grimontia (Vibrio) hollisae 1706B and Its Efficient Expression in Brevibacillus choshinensis

The collagenase gene was cloned from Grimontia (Vibrio) hollisae 1706B, and its complete nucleotide sequence was determined. Nucleotide sequencing showed that the open reading frame was 2,301 bp in length and encoded an 84-kDa protein of 767 amino acid residues. The deduced amino acid sequence contains a putative signal sequence and a zinc metalloprotease consensus sequence, the HEXXH motif. G. hollisae collagenase showed 60 and 59% amino acid sequence identities to Vibrio parahaemolyticus and Vibrio alginolyticus collagenase, respectively. In contrast, this enzyme showed < 20% sequence identity with Clostridium histolyticum collagenase. When the recombinant mature collagenase, which consisted of 680 amino acids with a calculated molecular mass of 74 kDa, was produced by the Brevibacillus expression system, a major gelatinolytic protein band of ~ 60 kDa was determined by zymographic analysis. This result suggested that cloned collagenase might undergo processing after secretion. Moreover, the purified recombinant enzyme was shown to possess a specific activity of 5,314 U/mg, an ~ 4-fold greater activity than that of C. histolyticum collagenase.

Tracing Conformational Transition of Abnormal Prion Proteins during Interspecies Transmission by Using Novel Antibodies

Conformational differences in abnormal prion proteins (PrPSc) have been postulated to produce different prion phenotypes. During the interspecies transmission of prions, the conformation of PrPSc may change with passage; however, little is known about the mechanism of PrPSc transition. In this study, novel PrPSc-specific monoclonal antibodies (mAbs) were developed that could detect the PrPSc of mouse but not that of sheep. By using these mAbs, we attempted to examine PrPSc accumulated in mice inoculated with sheep scrapie serially up to five passages. The presence of PrPSc in the mice was confirmed at all passages; however, mAb-bound PrPSc conformer was detected only from the third passage onward. The generated mAb enabled tracing of a particular conformer during adaptation in sheep-to-mice transmission of prion, suggesting that the conformational transition of PrPSc was caused by propagation of this conformer. Such mAbs capable of discriminating conformational differences may allow us to address questions concerning PrPSc conformation and strain diversity.

Abnormal collagen deposition in fibromas from patient with juvenile hyaline fibromatosis

isms underlying loss of immune privilege are not known, but it has been suggested that IFN-g upregulates MHC class I and II on follicular epithelium [3]. INF-g induced MHC class I expression in alopecia areata allows an autoreactive CD8+ T cell attack [7]. Suppressing MHC class I expression by POMC-derived peptides could help protect proximal hair follicles from autoreactive CD8+ T cell attack. Experimental result indicates that the a-MSH, ACTH, and bendorphin are promising candidates for immune privilege maintenance and restoration as they suppress ectopic expression of MHC class I. Although the mechanisms by which POMC-derived peptides suppress MHC class I expression remain to be clarified, this study enhances our understanding of the immune privilege of hair follicles, and may facilitate the development of therapeutic tools to treat autoimmune hair diseases.

Differential expression of tenascin in the skin during hapten-induced dermatitis

Tenascin is a large extracellular matrix glycoprotein which is found in limited regions of normal adult tissues including the skin. We investigated the induction of tenascin expression in mouse skin during hapten-in-duced dermatitis. In the dorsal skin, hapten application first induced a transient expression of tenascin in deeper regions of the skin. Its distribution then spread over the whole dermis corresponding to the infiltration of Mac-2-positive macrophages. In the ear, tenascin was consistently found in the subcutaneous tissue on the inner side, but very little was seen on the outer side. Tenascin did appear transiently, however, on both sides under hapten treatment. In the early phase of allergic contact dermatitis, no apparent induction of tenascin expression was observed in the swollen ear. However, there was an abundant tenascin expression on both sides during healing. Tenascin expressed under normal conditions was mostly the 180-kDa isoform, while the 230-kDa isoform was markedly induced during healing of the dermatitis. These results suggest that tenascin, particularly the larger 230-kDa isoform, may play important roles in the pathogenesis and healing of hapten-induced dermatitis.

Expansion of the trans-Golgi network following activated collagen secretion is supported by a coiled–coil microtubule-bundling protein, p180, on the ER

A coiled-coil endoplasmic reticulum (ER) protein, p180, was originally reported as a ribosome-binding receptor on the rough ER and is highly expressed in secretory tissues. Recently, we reported new functions of p180 as a microtubule-bundling protein on the ER. Here, we investigated the specific roles of p180 in the Golgi complex organization following stimulated collagen secretion. Targeted depletion of p180 by siRNA transfection caused marked reduction of TGN, while other marker levels for the cis or medial Golgi were not markedly changed. Ascorbate stimulation resulted in trans-Golgi network (TGN) expansion to the periphery in control cells that is characterized by both increased membrane amounts and extended shape. In contrast, loss of p180 resulted in retraction of the TGN regardless of ascorbate stimulation. The TGN developed to the periphery along stabilized microtubule bundles, and overexpression of MTB-1 fragment caused dominant-negative phenotypes. Once disorganized, the retracted TGN did not recover in the absence of p180 despite elevated acetylated tubulin levels. TGN46 and p180 were co-distributed in epithelial basal layer cells of human mucosal and gastrointestinal tissues. Taken together, we propose a novel function of p180-abundant ER on the TGN expansion, both of which are highly developed in various professional secretory cells.

Keratinocyte Apoptosis on Type I Collagen Fibrils is Prevented by Erk1/2 Activation under High Calcium Condition

Keratinocytes adhere and proliferate well on collagen-coated surfaces, but they undergo apoptosis without differentiation on collagen gels according to our past research. In the current studies, we investigated the necessary conditions for keratinocyte survival on fibrous collagen gels. We found that keratinocytes survived on collagen gels when the medium contains elevated levels (1.8 mM) of calcium. Under this high calcium condition, cells formed multicellular colonies and differentiated. Akt was not activated in cells cultured on collagen gels regardless of the calcium concentration, whereas it was activated in cells cultured on nonfibrous collagen. On the other hand, Erk1/2, key kinases of MAPK pathway, were phosphorylated in cells cultured under high calcium condition but not in cells cultured on collagen gels under low calcium condition. The necessity of Erk1/2 activation for keratinocyte survival on collagen gel was confirmed with experiment using U0126, an inhibitor for Erk1/2. These studies show that activation of Akt depends on collagen assembly, whereas activation of Erk1/2 is induced by increased extracellular calcium concentration. Thus, activation of the Erk1/2 by increasing calcium concentration in the incubation medium may compensate for the loss of Akt activation, allowing keratinocyte survival on collagen gels.