Ryosuke Takii scite author profile

Neutrophils are highly motile leukocytes, and they play important roles in the innate immune response to invading pathogens. Neutrophil chemotaxis requires Rac activation, yet the Rac activators functioning downstream of chemoattractant receptors remain to be determined. We show that DOCK2, which is a mammalian homologue of Caenorhabditis elegans CED-5 and Drosophila melanogaster Myoblast City, regulates motility and polarity during neutrophil chemotaxis. Although DOCK2-deficient neutrophils moved toward the chemoattractant source, they exhibited abnormal migratory behavior with a marked reduction in translocation speed. In DOCK2-deficient neutrophils, chemoattractant-induced activation of both Rac1 and Rac2 were severely impaired, resulting in the loss of polarized accumulation of F-actin and phosphatidylinositol 3,4,5-triphosphate (PIP3) at the leading edge. On the other hand, we found that DOCK2 associates with PIP3 and translocates to the leading edge of chemotaxing neutrophils in a phosphatidylinositol 3-kinase (PI3K)–dependent manner. These results indicate that during neutrophil chemotaxis DOCK2 regulates leading edge formation through PIP3-dependent membrane translocation and Rac activation.

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Suppression of Pathogenicity ofPorphyromonas gingivalisby Newly Developed Gingipain Inhibitors

Kadowaki¹,

Baba²,

Abe³

et al. 2004

Mol Pharmacol

114

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Arg-gingipain (Rgp) and Lys-gingipain (Kgp) are cysteine proteinases produced by Porphyromonas gingivalis, a major etiological bacterium of periodontal diseases. Here we show a series of small peptide analogs able to inhibit either Rgp or Kgp, which are synthesized on the basis of the cleavage site specificity of human salivary histatins by each enzyme. Among this series of compounds, carbobenzoxy-Lys-Arg-CO-Lys-N-(CH 3 ) 2 (KYT-1) and carbobenzoxy-Glu(NHN(CH 3 )Ph)-Lys-CO-NHCH 2 Ph (KYT-36) were found to be the most potent inhibitors of Rgp and Kgp, respectively, with K i values of 10 Ϫ11 to 10 Ϫ10 M order. Both inhibitors exhibited slight or no inhibition on mammalian proteinases such as trypsin and cathepsins B, L, and H. All of the virulence induced by the culture supernatant of P. gingivalis tested, including the degradation of various host proteins such as human type I collagen, immunoglobulins, fibronectin, and fibrinogen, disruption of the bactericidal activity of polymorphonuclear leukocytes, and enhancement of the vascular permeability, were strongly inhibited by a combined action of both inhibitors. The functions essential for the bacterium to grow and survive in the periodontal pocket, such as coaggregation and acquisition of amino acids, were also strongly inhibited by the combined action of both inhibitors. The disruption of the adhesion and viability of human fibroblasts and hemagglutination by the organism were strongly suppressed by a single use of KYT-1. These results thus indicate that the newly developed KYT-1 and KYT-36 both should provide a broader application in studies of this important class of enzymes and facilitate the development of new approaches to periodontal diseases.

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RPA Assists HSF1 Access to Nucleosomal DNA by Recruiting Histone Chaperone FACT

et al. 2012

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Transcription factor access to regulatory elements is prevented by the nucleosome. Heat shock factor 1 (HSF1) is a winged helix transcription factor that plays roles in control and stressed conditions by gaining access to target elements, but mechanisms of HSF1 access are not well known in mammalian cells. Here, we show the physical interaction between the wing motif of human HSF1 and replication protein A (RPA), which is involved in DNA metabolism. Depletion of RPA1 abolishes HSF1 access to the promoter of HSP70 in unstressed condition and delays its rapid activation in response to heat shock. The HSF1-RPA complex leads to preloading of RNA polymerase II and opens the chromatin structure by recruiting a histone chaperone, FACT. Furthermore, this interaction is required for melanoma cell proliferation. These results provide a mechanism of constitutive HSF1 access to nucleosomal DNA, which is important for both basal and inducible gene expression.

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Heat Shock Transcription Factor 1 Inhibits Expression of IL-6 through Activating Transcription Factor 3

Takii

Inouye

Fujimoto

et al. 2009

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The febrile response is a complex physiological reaction to disease, including a cytokine-mediated increase in body temperature and the activation of inflammatory systems. Fever has beneficial roles in terms of disease prognosis, partly by suppressing the expression of inflammatory cytokines. However, the molecular mechanisms underlining the fever-mediated suppression of inflammatory gene expression have not been clarified. In this study, we showed that heat shock suppresses LPS-induced expression of IL-6, a major pyrogenic cytokine, in mouse embryonic fibroblasts and macrophages. Heat shock transcription factor 1 (HSF1) activated by heat shock induced the expression of activating transcription factor (ATF) 3, a negative regulator of IL-6, and ATF3 was necessary for heat-mediated suppression of IL-6, indicating a fever-mediated feedback loop consisting of HSF1 and ATF3. A comprehensive analysis of inflammatory gene expression revealed that heat pretreatment suppresses LPS-induced expression of most genes (86%), in part (67%) via ATF3. When HSF1-null and ATF3-null mice were injected with LPS, they expressed much higher levels of IL-6 than wild-type mice, resulting in an exaggerated febrile response. These results demonstrate a novel inhibitory pathway for inflammatory cytokines.

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Heat shock factor 1 ameliorates proteotoxicity in cooperation with the transcription factor NFAT

Hayashida

Fujimoto

Tan

et al. 2010

EMBO J

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Heat shock transcription factor 1 (HSF1) is an important regulator of protein homeostasis (proteostasis) by controlling the expression of major heat shock proteins (Hsps) that facilitate protein folding. However, it is unclear whether other proteostasis pathways are mediated by HSF1. Here, we identified novel targets of HSF1 in mammalian cells, which suppress the aggregation of polyglutamine (polyQ) protein. Among them, we show that one of the nuclear factor of activated T cells (NFAT) proteins, NFATc2, significantly inhibits polyQ aggregation in cells and is required for HSF1-mediated suppression of polyQ aggregation. NFAT deficiency accelerated disease progression including aggregation of a mutant polyQ-huntingtin protein and shortening of lifespan in R6/2 Huntington's disease mice. Furthermore, we found that HSF1 and NFAT cooperatively induce the expression of the scaffold protein PDZK3 and aB-crystallin, which facilitate the degradation of polyQ protein. These results show the first mechanistic basis for the observation that HSF1 has a much more profound effect on proteostasis than individual Hsp or combination of different Hsps, and suggest a new pathway for ameliorating protein-misfolding diseases.

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Ryosuke Takii

DOCK2 is a Rac activator that regulates motility and polarity during neutrophil chemotaxis

Suppression of Pathogenicity ofPorphyromonas gingivalisby Newly Developed Gingipain Inhibitors

RPA Assists HSF1 Access to Nucleosomal DNA by Recruiting Histone Chaperone FACT

Heat Shock Transcription Factor 1 Inhibits Expression of IL-6 through Activating Transcription Factor 3

Heat shock factor 1 ameliorates proteotoxicity in cooperation with the transcription factor NFAT

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