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91.
92.
XMAP215/TOGp family members and KinI kinesins are conserved microtubule (MT)-regulatory proteins, and have been viewed as possessing prominent antagonistic stabilizing/destabilizing activities that must be balanced. Here, interdependencies between TOGp and the KinI kinesin MCAK were analyzed in human leukemia cells. A system was established that permits inducible overexpression in homogeneous cell populations that simultaneously synthesize interfering short hairpin RNAs. We present evidence that the functional interplay of TOGp and MCAK proteins is manifested as three distinct phenotypes during the cell cycle. The first involves a role for TOGp in protecting spindle MTs from MCAK activity at the centrosome, which appears essential to prevent the formation of disorganized multipolar spindles. The second phenotype involves TOGp-dependent counteraction of excessive MCAK activity during mitosis, which recapitulates the previously established plus-end specific counteractive activities in vitro. The third involves an unexpected destabilization of the interphase MTs by overexpressed TOGp, a phenotype that requires endogenous MCAK. We hypothesize that TOGp-dependent prevention of MCAK-mediated spindle disorganization, as evidenced by depletion experiments, reflects a primary physiological role for TOGp in human somatic cells. 相似文献
93.
Variants of CYP46A1 may interact with age and APOE to influence CSF Aβ42 levels in Alzheimer’s disease 总被引:2,自引:0,他引:2
Johansson A Katzov H Zetterberg H Feuk L Johansson B Bogdanovic N Andreasen N Lenhard B Brookes AJ Pedersen NL Blennow K Prince JA 《Human genetics》2004,114(6):581-587
Recent studies have suggested that variants of CYP46A1, encoding cholesterol 24-hydroxylase (CYP46), confer risk for Alzheimers disease (AD), a prospect substantiated by evidence of genetic association from several quantitative traits related to AD pathology, including cerebrospinal fluid (CSF) levels of the 42 amino-acid cleavage product of -amyloid (A42) and the tau protein. In the present study, these claims have been explored by the genotyping of previously associated markers in CYP46A1 in three independent northern European case-control series encompassing 1323 individuals and including approximately 400 patients with measurements of CSF A42 and phospho-tau protein levels. Tests of association in case-control models revealed limited evidence that CYP46A1 variants contributed to AD risk across these samples. However, models testing for potential effects upon CSF measures suggested a possible interaction of an intronic marker (rs754203) with age and APOE genotype. In stratified analyses, significant effects were evident that were restricted to elderly APOE 4 carriers for both CSF A42 (P=0.0009) and phospho-tau (P=0.046). Computational analyses indicate that the rs754203 marker probably does not impact the binding of regulatory factors, suggesting that other polymorphic sites underlie the observed associations. Our results provide an important independent replication of previous findings, supporting the existence of CYP46A1 sequence variants that contribute to variability in -amyloid metabolism. 相似文献
94.
The neurons in the superior cervical ganglion are active in plasticity and re-modelling in order to adapt to requirements. However, so far, only a few studies dealing with synaptic vesicle related proteins during adaptive processes have been published. In the present paper, changes in content and expression of the synaptic vesicle related proteins in the neurons after decentralization (cutting the cervical sympathetic trunk) or axotomy (cutting the internal and external carotid nerves) were studied. Immunofluorescence studies were carried out using antibodies and antisera against integral membrane proteins, vesicle associated proteins, NPY, and the enzymes TH and PNMT. For colocalization studies, the sections were simultaneously double labelled. Confocal laser scanning microscopy was used for colocalization studies as well as for semi-quantification analysis, using the computer software. Westen blot analysis, in situ 3'-end DNA labelling, and in situ hybridization were also employed. After decentralization of the ganglia several of the synaptic vesicle proteins (synaptotagmin I, synaptophysin, SNAP-25, CLC and GAP-43) were increased in the iris nerve terminal network, but with different time patterns, while TH-immunoreactivity had clearly decreased. In the ganglia, these proteins had decreased at 1 day after decentralization, probably due to degeneration of the pre-ganglionic nerve fibres and terminals. At later intervals, these proteins, except SNAP-25, had increased in the nerve fibre bundles and re-appeared in nerve fibres outlining the principal neurons. 相似文献
95.
Arnason U Gullberg A Gretarsdottir S Ursing B Janke A 《Journal of molecular evolution》2000,50(6):569-578
Extant cetaceans are systematically divided into two suborders: Mysticeti (baleen whales) and Odontoceti (toothed whales).
In this study, we have sequenced the complete mitochondrial (mt) genome of an odontocete, the sperm whale (Physeter macrocephalus), and included it in phylogenetic analyses together with the previously sequenced complete mtDNAs of two mysticetes (the
fin and blue whales) and a number of other mammals, including five artiodactyls (the hippopotamus, cow, sheep, alpaca, and
pig). The most strongly supported cetartiodactyl relationship was: outgroup,((pig, alpaca),((cow, sheep),(hippopotamus,(sperm
whale,(baleen whales))))). As in previous analyses of complete mtDNAs, the sister-group relationship between the hippopotamus
and the whales received strong support, making both Artiodactyla and Suiformes (pigs, peccaries, and hippopotamuses) paraphyletic.
In addition, the analyses identified a sister-group relationship between Suina (the pig) and Tylopoda (the alpaca), although
this relationship was not strongly supported. The paleontological records of both mysticetes and odontocetes extend into the
Oligocene, suggesting that the mysticete and odontocete lineages diverged 32–34 million years before present (MYBP). Use of
this divergence date and the complete mtDNAs of the sperm whale and the two baleen whales allowed the establishment of a new
molecular reference, O/M-33, for dating other eutherian divergences. There was a general consistency between O/M-33 and the
two previously established eutherian references, A/C-60 and E/R-50. Cetacean (whale) origin, i.e., the divergence between
the hippopotamus and the cetaceans, was dated to ≈55 MYBP, while basal artiodactyl divergences were dated to ≥65 MYBP. Molecular
estimates of Tertiary eutherian divergences were consistent with the fossil record.
Received: 12 July 1999 / Accepted: 28 February 2000 相似文献
96.
Gullberg H Rudling M Forrest D Angelin B Vennström B 《Molecular endocrinology (Baltimore, Md.)》2000,14(11):1739-1749
Thyroid hormone (T3) influences hepatic cholesterol metabolism, and previous studies have established an important role of this hormone in the regulation of cholesterol 7alpha-hydroxylase (CYP7A), the rate-limiting enzyme in the synthesis of bile acids. To evaluate the respective contribution of thyroid hormone receptors (TR) alpha1 and beta in this regulation, the responses to 2% dietary cholesterol and T3 were studied in TRalpha1 and TRbeta knockout mice under hypo- and hyperthyroid conditions. Our experiments show that the normal stimulation in CYP7A activity and mRNA level by T3 is lost in TRbeta-/- but not in TRalpha1-/-mice, identifying TRbeta as the mediator of T3 action on CYP7A and, consequently, as a major regulator of cholesterol metabolism in vivo. Somewhat unexpectedly, T3-deficient TRbeta-/- mice showed an augmented CYP7A response after challenge with dietary cholesterol, and these animals did not develop hypercholesterolemia to the extent as did wild-type (wt) controls. The latter results lend strong support to the concept that TRs may exert regulatory effects in vivo independent of T3. 相似文献
97.
98.
Immunohistochemical characterisation of differentiated CAD cells: expression of peptides and chromogranins 总被引:1,自引:1,他引:0
The CNS-derived cell line, CAD cell line, when grown in a protein free medium (PFM), differentiates to neuron-like cells with
very long processes. It was previously studied biochemically and found to express TH activity, some neurospecific proteins,
but no glial proteins. We have now further studied the CAD cells and focused on the expression of various neuropeptides, GAP-43
and GFAP. All peptides studied were present, including TH, but also GFAP, in contrast to earlier studies. A different kind
of processes, short, slender and distributed like a “fringe” around cell body and along processes was observed, NESP55 but
not other chromogranins was present in these “fringes”, GAP43 showed some degree of overlapping with NESP55. The results show
that even after differentiation in PFM, the CAD cells express a palette of neuropeptides and chromogranins, catecholaminergic
markers as well as the glia-specific GFAP. Our efforts to induce exocytosis/endocytosis from the peptide granules by high
K+ were, however, unsuccessful. Due to long processes, the CAD cells may represent a good model for studying intracellular transport,
and, since the cells express both neuronal and glial characteristics, it may be useful for investigating the influence of
different trophic/growth factors on the expression of various neuronal characteristics. 相似文献
99.
The catastrophe-promoting activity of ectopic Op18/stathmin is required for disruption of mitotic spindles but not interphase microtubules 下载免费PDF全文
Holmfeldt P Larsson N Segerman B Howell B Morabito J Cassimeris L Gullberg M 《Molecular biology of the cell》2001,12(1):73-83
Oncoprotein18/stathmin (Op18) is a microtubule (MT) destabilizing protein that is inactivated during mitosis by phosphorylation at four Ser-residues. Op18 has at least two functions; the N-terminal region is required for catastrophe-promotion (i.e., transition from elongation to shortening), while the C-terminal region is required to inhibit MT-polymerization rate in vitro. We show here that a "pseudophosphorylation" derivative of Op18 (i.e., four Ser- to Glu-substitutions at phosphorylation sites) exhibits a selective loss of catastrophe-promoting activity. This is contrasted to authentic phosphorylation, which efficiently attenuates all activities except tubulin binding. In intact cells, overexpression of pseudophosphorylated Op18, which is not phosphorylated by endogenous kinases, is shown to destabilize interphase MTs but to leave spindle formation untouched. To test if the mitotic spindle is sensitive only to the catastrophe-promoting activity of Op18 and resistant to C-terminally associated activities, N- and C-terminal truncations with defined activity-profiles were employed. The cell-cycle phenotypes of nonphosphorylatable mutants (i.e., four Ser- to Ala-substitutions) of these truncation derivatives demonstrated that catastrophe promotion is required for interference with the mitotic spindle, while the C-terminally associated activities are sufficient to destabilize interphase MTs. These results demonstrate that specific Op18 derivatives with defined activity-profiles can be used as probes to distinguish interphase and mitotic MTs. 相似文献
100.
Recent reports suggest that laminin deposition is controlled by the cell via specific receptors, one of which is dystroglycan. In this study, the involvement of beta1-integrins in this process was investigated by comparing beta1-integrin-deficient cells of different phenotypes with their normal counterparts. Normal embryonic stem (ES) cells and embryoid bodies (EBs) derived from them were found to deposit cell-associated laminin into fibrillar networks, and in the EBs a basement membrane was assembled under the primitive endoderm. beta1-deficient ES cells and their EBs formed only small amounts of dot-like laminin deposits. Skeletal myotubes formed after prolonged differentiation in EBs were found to be surrounded by laminin, nidogen, and perlecan by immunofluorescent staining irrespective of the presence of beta1-integrins on the myotubes. However, at the electron microscope level only very thin sheet-like structures were detected close to the beta1-deficient myotubes, while the wt myotubes formed thick basement membranes. An epithelial cell line, GE11, derived from the beta1-integrin-deficient ES cells was also unable to assemble laminin on the cell surface, while transfection of the cells with the integrin beta1 subunit resulted in formation of a dense laminin network. Taken together, these results suggest that dystroglycan and beta1-integrins can both contribute to the recruitment of laminin to cell surfaces and that integrins are required at a subsequent step in the formation of basement membranes. 相似文献