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Mitochondrial reactive oxygen species reduce insulin secretion by pancreatic beta-cells 总被引:11,自引:0,他引:11
Sakai K Matsumoto K Nishikawa T Suefuji M Nakamaru K Hirashima Y Kawashima J Shirotani T Ichinose K Brownlee M Araki E 《Biochemical and biophysical research communications》2003,300(1):216-222
Pancreatic beta-cells exposed to hyperglycemia produce reactive oxygen species (ROS). Because beta-cells are sensitive to oxidative stress, excessive ROS may cause dysfunction of beta-cells. Here we demonstrate that mitochondrial ROS suppress glucose-induced insulin secretion (GIIS) from beta-cells. Intracellular ROS increased 15min after exposure to high glucose and this effect was blunted by inhibitors of the mitochondrial function. GIIS was also suppressed by H(2)O(2), a chemical substitute for ROS. Interestingly, the first-phase of GIIS could be suppressed by 50 microM H(2)O(2). H(2)O(2) or high glucose suppressed the activity of glyceraldehyde 3-phosphate dehydrogenase (GAPDH), a glycolytic enzyme, and inhibitors of the mitochondrial function abolished the latter effects. Our data suggested that high glucose induced mitochondrial ROS, which suppressed first-phase of GIIS, at least in part, through the suppression of GAPDH activity. We propose that mitochondrial overwork is a potential mechanism causing impaired first-phase of GIIS in the early stages of diabetes mellitus. 相似文献
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Osteogenic differentiation of the mesenchymal progenitor cells, Kusa is suppressed by Notch signaling 总被引:6,自引:0,他引:6
Shindo K Kawashima N Sakamoto K Yamaguchi A Umezawa A Takagi M Katsube K Suda H 《Experimental cell research》2003,290(2):370-380
Notch receptor plays a crucial role in proliferation and differentiation of many cell types. To elucidate the function of Notch signaling in osteogenesis, we transfected the constitutively active Notch1 (Notch intracellular domain, NICD) into two different osteoblastic mesenchymal cell lines, KusaA and KusaO, and examined the changes of their osteogenic potentials. In NICD stable transformants (KusaA(NICD) and KusaO(NICD)), osteogenic properties including alkaline phosphatase activity, expression of osteocalcin and type I collagen, and in vitro calcification were suppressed. Transient transfection of NICD attenuated the promoter activities of Cbfa1 and Ose2 element. KusaA was capable of forming trabecular bone-like tissues when injected into mouse abdomen, but this in vivo bone forming activity was significantly suppressed in KusaA(NICD). Osteoclasts were induced in the KusaA-derived bone-like tissues, but lacked in the KusaA(NICD)-derived tissues. These results suggest that Notch signaling suppresses the osteoblastic differentiation of mesenchymal progenitor cells. 相似文献
76.
Hyaluronan oligosaccharides induce CD44 cleavage and promote cell migration in CD44-expressing tumor cells 总被引:9,自引:0,他引:9
Sugahara KN Murai T Nishinakamura H Kawashima H Saya H Miyasaka M 《The Journal of biological chemistry》2003,278(34):32259-32265
CD44 is an adhesion molecule that serves as a cell surface receptor for several extracellular matrix components, including hyaluronan (HA). The proteolytic cleavage of CD44 from the cell surface plays a critical role in the migration of tumor cells. Although this cleavage can be induced by certain stimuli such as phorbol ester and anti-CD44 antibodies in vitro, the physiological inducer of CD44 cleavage in vivo is unknown. Here, we demonstrate that HA oligosaccharides of a specific size range induce CD44 cleavage from tumor cells. Fragmented HA containing 6-mers to 14-mers enhanced CD44 cleavage dose-dependently by interacting with CD44, whereas a large polymer HA failed to enhance CD44 cleavage, although it bound to CD44. Examination using uniformly sized HA oligosaccharides revealed that HAs smaller than 36 kDa significantly enhanced CD44 cleavage. In particular, the 6.9-kDa HA (36-mers) not only enhanced CD44 cleavage but also promoted tumor cell motility, which was completely inhibited by an anti-CD44 monoclonal antibody. These results raise the possibility that small HA oligosaccharides, which are known to occur in various tumor tissues, promote tumor invasion by enhancing the tumor cell motility that may be driven by CD44 cleavage. 相似文献
77.
TNF combined with IFN-alpha accelerates NF-kappaB-mediated apoptosis through enhancement of Fas expression in colon cancer cells 总被引:1,自引:0,他引:1
Kimura M Haisa M Uetsuka H Takaoka M Ohkawa T Kawashima R Yamatsuji T Gunduz M Kaneda Y Tanaka N Naomoto Y 《Cell death and differentiation》2003,10(6):718-728
Immunostaining and EMSA revealed that NF-kappaB was activated strongly by TNF/IFN-alpha compared to TNF alone in a human colon adenocarcinoma cell line, RPMI4788. Although inhibition of activated NF-kappaB, by using an NF-kappaB decoy, reduced cell viability after treatment with TNF only, NF-kappaB decoy resulted in recovery of cell viability after TNF/IFN-alpha treatment. Caspase-3 activity was increased in cells induced by TNF/IFN-alpha, while suppression of caspase-3 activity was observed in cells transfected with NF-kappaB decoy and then treated by TNF/IFN-alpha. On the other hand, Fas expression was strongly enhanced by TNF/IFN-alpha, and inhibition of TNF/IFN-alpha-induced NF-kappaB activation, by using NF-kappaB decoy, decreased Fas expression. Cell viability and caspase-3 activity decreased in cells treated with TNF/IFN-alpha and anti-FasL antibody. Taken together, our findings suggest that activated NF-kappaB induced by the crosstalk between TNF and IFN-alpha is a novel pro-apoptotic signal acting via enhancement of Fas expression. 相似文献
78.
Nosaka T Morita S Kitamura H Nakajima H Shibata F Morikawa Y Kataoka Y Ebihara Y Kawashima T Itoh T Ozaki K Senba E Tsuji K Makishima F Yoshida N Kitamura T 《Molecular and cellular biology》2003,23(8):2969-2980
Dorsoventral patterning depends on the local concentrations of the morphogens. Twisted gastrulation (TSG) regulates the extracellular availability of a mesoderm inducer, bone morphogenetic protein 4 (BMP-4). However, TSG function in vivo is still unclear. We isolated a TSG cDNA as a secreted molecule from the mouse aorta-gonad-mesonephros region. Here we show that TSG-deficient mice were born healthy, but more than half of the neonatal pups showed severe growth retardation shortly after birth and displayed dwarfism with delayed endochondral ossification and lymphopenia, followed by death within a month. TSG-deficient thymus was atrophic, and phosphorylation of SMAD1 was augmented in the thymocytes, suggesting enhanced BMP-4 signaling in the thymus. Since BMP-4 promotes skeletogenesis and inhibits thymus development, our findings suggest that TSG acts as both a BMP-4 agonist in skeletogenesis and a BMP-4 antagonist in T-cell development. Although lymphopenia in TSG-deficient mice would partly be ascribed to systemic effects of runtiness and wasting, our findings may also provide a clue for understanding the pathogenesis of human dwarfism with combined immunodeficiency. 相似文献
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Kawashima T Tokuoka M Awazu S Satoh N Satou Y 《Development genes and evolution》2003,213(5-6):284-290
Cell growth and cell divisions are two fundamental biological processes for cells in multi-cellular organisms. The molecules involved in these biological processes are highly conserved within eukaryotes, including plants and unicellular organisms such as yeast. However, some regulatory molecules seem to be innovated during animal evolution. Therefore, to understand how the ubiquitous systems have evolved or have been conserved, we examined genes for the phosphoinositide 3-kinase (PI3K) pathway that is important for cell growth, and genes for cell cycle regulation in the genome of Ciona intestinalis. It was found that the Ciona intestinalis genome contains all the essential constituents of the PI3K pathway. In addition, the class IB PI3K catalytic and regulatory subunits, which had not previously been known in animals other than mammals, were found in the Ciona genome. Similarly, all essential cyclins and CDKs were found in the Ciona genome, while cyclin G and cyclin L were likely to be independently lost in the ascidian lineage, which may be dispensable for the cell cycle. Cyclin F, which was previously known only in vertebrates, was not found in the Ciona genome. Therefore, this gene was probably innovated during the evolution of vertebrates to be involved in vertebrate-specific cell cycle regulation. Since Ciona is regarded as one of the most primitive extant chordates, the present analysis gives us an insight into how these fundamental biological genes are evolved or are conserved during chordate evolution. 相似文献