Ikuko Haruta scite author profile

Abstract. The A-domain is a ,,o200-amino acid peptide present within structurally diverse proadhesive proteins including seven integrins. A recombinant form of the A-domain of/32 integrins CR3 and LFA-1 has been recently shown to bind divalent cations and to contain binding sites for protein ligands that play essential roles in leukocyte trafficking to inflammatory sites, phagocytosis and target cell killing. In this report we demonstrate that the neutrophil adhesion inhibitor, NIF produced by the hookworm Ancylostoma caninum is a selective CDllb A-domain binding protein. NIF bound directly, specifically and with high affinity (Kd of ~1 nM) to recombinant CD1 lb A-domain (rllbA). The binding reaction was characterized by rapid association and very slow dissociation, and was blocked by an anti-rllbA monoclonal antibody. No binding was observed to rCDllaA. The NIF-rllbA interaction required divalent cations, and was absent when the mutant rllbA D140GS/AGA (that lacks divalent cation binding capacity) was used. The NIF binding site in rllbA was mapped to four short peptides, one of which being an iC3b binding site. The interaction of NIF with CR3 in intact cells followed similar binding kinetics to those with rllbA, and occurred with similar affinity in resting and activated human neutrophils, suggesting that the NIF epitope is activation independent. Binding of NIF to CR3 blocked its ability to bind to its ligands iC3b, fibrinogen, and CD54, and inhibited the ability of human neutrophils to ingest serum opsonized particles. NIF thus represents the first example of a disintegrin that targets the integrin A-domain, and is likely to be used by the hookworm to evade the host's inflammatory response. The unique structure of NIF, which lacks a disintegrin motif, emphasizes basic structural differences in antagonists targeting A + and A-integrins, that should be valuable in drug design efforts aimed at generating novel therapeutics. Identification of the region in NIF mediating A-domain binding should also be useful in this regard, and may, as in the case of disintegrins, unravel a new structural motif with cellular counterparts mediating important physiologic functions.

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Fatal Propionic Acidemia in Mice Lacking Propionyl-CoA Carboxylase and Its Rescue by Postnatal, Liver-specific Supplementation via a Transgene

Miyazaki¹,

Ohura²,

Kobayashi³

et al. 2001

Journal of Biological Chemistry

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mice, in which the transgene expression increased after the late infant period, continued to grow normally while mice harboring a persistent low level of PCC died in the late infant period due to severe ketoacidosis, clearly suggesting the requirement of increased PCC supplementation in proportion to the animal growth. Based on these results, we propose a two-step strategy to achieve an efficient PA prevention in human patients: a partial PCC supplementation in the liver during the newborn and early infant periods, followed by a larger amount of supplementation in the late infant period.

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Association of AIM, a Novel Apoptosis Inhibitory Factor, with Hepatitis via Supporting Macrophage Survival and Enhancing Phagocytotic Function of Macrophages

Haruta¹,

Kato

Hashimoto³

et al. 2001

Journal of Biological Chemistry

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A hallmark of many inflammatory diseases is the destruction of tissue cells by infiltrating hematopoietic cells including lymphocytes, neutrophils, and macrophages. The regulation of apoptosis of both target tissue cells and the infiltrating cells is one of the key events that defines the initiation and the progression of inflammation. However, the precise picture of the apoptosis regulation of the cells at the inflammatory sites is still unclear. We recently isolated a novel apoptosis inhibitory factor, termed AIM, which is secreted exclusively by tissue macrophages. In this report, we present unique characteristics of AIM associated with liver inflammation (hepatitis), identified by introducing an experimental hepatitis in both AIM-transgenic mice, which overexpress AIM in the body, and normal mice. First, endogenous AIM expression in macrophages is rapidly increased in response to inflammatory stimuli. Second, AIM appears to inhibit the death of macrophages in the inflammatory regions, judging by the remarkably increased number of macrophages observed in the liver from transgenic mice. In addition, we show that AIM also enhances the phagocytosis by macrophages, which emphasizes the multifunctional character of AIM. All these findings strongly provoke an idea that AIM may play an important role in hepatitis pathogenesis in a sequential manner; first AIM expression is up-regulated by inflammatory stimuli, and then in an autocrine fashion, AIM supports the survival of infiltrating macrophages as well as enhances phagocytosis by macrophages, which may result in an efficient clearance of dead cells and infectious or toxic reagents.

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A mouse model of autoimmune pancreatitis with salivary gland involvement triggered by innate immunity via persistent exposure to avirulent bacteria

Haruta

Yanagisawa

Kawamura

et al. 2010

Laboratory Investigation

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The pathogenesis of autoimmune pancreatitis (AIP) remains unknown. Here, we investigated the possible involvement of chronic, persistent exposure to avirulent bacteria in the pathogenesis of AIP. C57BL/6 mice were inoculated with heatkilled Escherichia coli weekly for 8 weeks. At 1 week and up to 12 months after the final inoculation, the mice were killed to obtain samples. At 1 week after the final E. coli inoculation, marked cellular infiltration with fibrosis was observed in the exocrine pancreas. Cellular infiltration in the exocrine pancreas was still observed up to 12 months after the completion of E. coli inoculation. At 10 months after the final inoculation, duct-centric fibrosis became obvious. Inflammation around the ducts in the salivary glands was also observed. Furthermore, sera from heat-killed E. coli-inoculated mice possessed anti-carbonic anhydrase, anti-lactoferrin, and antinuclear antibodies. Exposure to E. coli-triggered AIP-like pancreatitis in C57BL/6 mice. We propose a hypothetical mechanism for AIP pathogenesis. During the initiation phase, silently infiltrating pathogen-associated molecular patterns (PAMP) and/or antigen(s) such as avirulent bacteria might trigger and upregulate the innate immune system. Subsequently, the persistence of such PAMP attacks or stimulation by molecular mimicry upregulates the host immune response to the target antigen. These slowly progressive steps may lead to the establishment of AIP and associated extrapancreatic lesions. Our model might be useful for clarifying the pathogenesis of AIP.

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Long-term bacterial exposure can trigger nonsuppurative destructive cholangitis associated with multifocal epithelial inflammation

Haruta

Kikuchi

Hashimoto

et al. 2010

Laboratory Investigation

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Ikuko Haruta

The A-domain of beta 2 integrin CR3 (CD11b/CD18) is a receptor for the hookworm-derived neutrophil adhesion inhibitor NIF.

Fatal Propionic Acidemia in Mice Lacking Propionyl-CoA Carboxylase and Its Rescue by Postnatal, Liver-specific Supplementation via a Transgene

Association of AIM, a Novel Apoptosis Inhibitory Factor, with Hepatitis via Supporting Macrophage Survival and Enhancing Phagocytotic Function of Macrophages

A mouse model of autoimmune pancreatitis with salivary gland involvement triggered by innate immunity via persistent exposure to avirulent bacteria

Long-term bacterial exposure can trigger nonsuppurative destructive cholangitis associated with multifocal epithelial inflammation

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