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Role of macrophage-colony stimulating factor and osteoclast differentiation factor in osteoclastogenesis of bone marrow derived stem cells 总被引:3,自引:0,他引:3
Macrophage colony stimulating factor (M-CSF) and osteoclast differentiation factor (ODF) regulate osteoclastogenesis in vivo. Regulation of osteoclast development in vitro by these cytokines has been reported in the present study. Simultaneous addition of ODF and M-CSF during initiation of bone marrow culture inhibited osteoclastogenesis. However, delayed addition of ODF (three days after initiation of the culture) resulted in dramatic increase in phenotypically and functionally mature osteoclast cells. Delayed addition of ODF beyond day three decreased osteoclastogenesis. Further, removal of M-CSF as early as day three inhibited ODF-induced osteoclastogenesis. These studies provided evidence for the importance of co-ordinated regulation of osteoclastogenesis by M-CSF and ODF. 相似文献
75.
Aerobic and microaerobic diazotrophs possess numerous oxygen restriction strategies to protect nitrogenase from inactivation by oxygen without interfering with energy generation through oxidative phosphorylation. Protection by conformational change in nitrogenase was first detected and described in Azotobacter. This strategy once considerd unique for Azotobacter has been shown in this study to occur in Citrobacterfreundii (Braak) Werkman and Gillen and Klebsiella pneumoniae subspecies rhinoscleromatis (Trevisan) Migula also. However, in these enteric bacteria the entire enzyme is not protected probably due to the absence of any respiratory protection similar to that found in the aerobe, Azotobacter. 相似文献
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Rady PL Surendran S Vu AT Hawkins JC Michals-Matalon K Tyring SK Merren J Kumar AK Matalon R 《Genetic testing》2002,6(3):211-215
Sanfilippo A syndrome is an autosomal recessive lysosomal storage disease. This disease was reported in the Cayman Islands population with carrier frequency of 1/7 to 1/10 in the West Bay district of Grand Cayman. The carrier testing of Sanfilippo A disease for families at risk was carried out using the thermal characteristics of sulfamidase activity. In the present study, a search for mutations in the sulfamidase gene in an index family was performed. In addition, 77 individuals, relatives of children with Sanfilippo A syndrome, were also studied by single-strand conformation polymorphism (SSCP), restriction fragment-length polymorphism (RFLP) analyses, and sequencing. A single mutation, G746A (R245H), was found in the family, with the patient being homozygous and both parents and 1 of the 3 siblings being carriers. Among the 77 family members of the patient with Sanfilippo syndrome, the same mutation was found among carriers of the disease. The finding of a single mutation supports the idea of a founder effect, which facilitates accurate carrier identification of Sanfilippo A syndrome in the population of Cayman Islands. 相似文献
78.
Nitric oxide inhibits ADP-ribosyl cyclase through a cGMP-independent pathway in airway smooth muscle
White TA Walseth TF Kannan MS 《American journal of physiology. Lung cellular and molecular physiology》2002,283(5):L1065-L1071
There is evidence for a role of cyclic ADP-ribose (cADPR) in intracellular Ca2+ regulation in smooth muscle. cADPR is synthesized and degraded by ADP-ribosyl cyclase and cADPR hydrolase, respectively, by a bifunctional protein, CD38. Nitric oxide (NO) inhibits intracellular Ca2+ mobilization in airway smooth muscle. The present study was designed to determine whether this inhibition is due to regulation of ADP-ribosyl cyclase and/or cADPR hydrolase activity. Sodium nitroprusside (SNP) and S-nitroso-N-acetylpenicillamine, NO donors, produced a concentration-dependent decrease in ADP-ribosyl cyclase, but not cADPR hydrolase, activity. The NO scavenger carboxy-PTIO prevented and reversed, and reduced glutathione prevented, the inhibition of ADP-ribosyl cyclase by SNP, suggesting S-nitrosylation by NO as a mechanism. N-ethylmaleimide, which covalently modifies protein sulfhydryl groups, making them incapable of nitrosylation, produced a marked inhibition of ADP-ribosyl cyclase, but not cADPR hydrolase, activity. SNP and N-ethylmaleimide significantly inhibited the ADP-ribosyl cyclase activity in recombinant human CD38 without affecting the cADPR hydrolase activity. These results provide a novel mechanism for differential regulation of CD38 by NO through a cGMP-independent pathway involving S-nitrosylation of thiols. 相似文献
79.
Chu C Jin Q Kunitake T Kato K Nabekura T Nakazato M Kangawa K Kannan H 《Regulatory peptides》2002,105(1):29-34
Neuromedin U (NMU) is a brain-gut peptide, which peripherally stimulates smooth muscle, increases of blood pressure, alters ion transport in the gut, controls local blood flow, and regulates adrenocortical function. Although intracerebroventricular (i.c.v.) administration of NMU is known to decrease food intake and body weight, little is known about its effect on other physiological functions. We examined the effects of i.c.v. administration of NMU on mean arterial pressure (MAP), heart rate (HR), and plasma norepinephrine in conscious rats. Neuromedin U (0.05 and 0.5 nmol) provoked an increase in MAP (93.8 +/- 0.5 to 123.5 +/- 1.7 and 94.7 +/- 0.8 to 132.7 +/- 3.0 mm Hg, respectively) and HR (334.9 +/- 6.0 to 494.1 +/- 6.9 and 346.3 +/- 3.3 to 475.1 +/- 8.9 beats/min, respectively). In contrast, plasma norepinephrine increased only with a high dose of neuromedin U. Intravenously administered NMU (0.5 nmol) elicited a small and short lasting increase in MAP, compared to that by i.c.v. NMU. These results indicate that central neuromedin U regulates sympathetic nervous system activity and affects cardiovascular function. 相似文献
80.
Marx S Baumgärtner M Kannan S Braun HP Lang BF Burger G Kunnan S 《Molecular biology and evolution》2003,20(1):145-153
In eubacteria, the respiratory bc(1) complex (complex III) consists of three or four different subunits, whereas that of mitochondria, which have descended from an alpha-proteobacterial endosymbiont, contains about seven additional subunits. To understand better how mitochondrial protein complexes evolved from their simpler bacterial predecessors, we purified complex III of Seculamonas ecuadoriensis, a member of the jakobid protists, which possess the most bacteria-like mitochondrial genomes known. The S. ecuadoriensis complex III has an apparent molecular mass of 460 kDa and exhibits antimycin-sensitive quinol:cytochrome c oxidoreductase activity. It is composed of at least eight subunits between 6 and 46 kDa in size, including two large "core" subunits and the three "respiratory" subunits. The molecular mass of the S. ecuadoriensis bc(1) complex is slightly lower than that reported for other eukaryotes, but about 2x as large as complex III in bacteria. This indicates that the departure from the small bacteria-like complex III took place at an early stage in mitochondrial evolution, prior to the divergence of jakobids. We posit that the recruitment of additional subunits in mitochondrial respiratory complexes is a consequence of the migration of originally alpha-proteobacterial genes to the nucleus. 相似文献