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91.
MF Perutz 《Current opinion in structural biology》1996,6(6):848-858
Several dominantly inherited, late onset, neurodegenerative diseases are due to expansion of CAG repeats, leading to expansion of glutamine repeats in the affected proteins. These proteins are of very different sizes and, with one exception, show no sequence homology to known proteins or to each other; their functions are unknown. In some, the glutamine repeat starts near the N-terminus, in another near the middle and in another near the C-terminus, but regardless of these differences, no disease has been observed in individuals with fewer than 37 repeats, and absence of disease has never been found in those with more than 41 repeats. Protein constructs with more than 41 repeats are toxic to E. coli and to CHO cells in culture, and they elicit ataxia in transgenic mice. These observations argue in favour of a distinct change of structure associated with elongation beyond 37–41 glutamine repeats. The review describes experiments designed to find out what these structures might be and how they could influence the properties of the proteins of which they form part. Poly-
-glutamines form pleated sheets of β-strands held together by hydrogen bonds between their amides. Incorporation of glutamine repeats into a small protein of known structure made it associate irreversibly into oligomers. That association took place during the folding of the protein molecules and led to their becoming firmly interlocked by either strand- or domain-swapping. Thermodynamic considerations suggest that elongation of glutamine repeats beyond a certain length may lead to a phase change from random coils to hydrogen-bonded hairpins. Possible mechanisms of expansion of CAG repeats are discussed in the light of looped DNA model structures. 相似文献
92.
A collagen gene (Dcg1) was characterized in Drosophila melanogaster and shown to encode a peptide related to vertebrate basement membrane type IV collagen chains. To study the function of type IV collagen during Drosophila development, we transformed flies with a partially truncated Dcg1 gene under the control of a heat-shock promotor. This construct induced synthesis of shortened pro- chains which associated with normal ones and thereby caused degradation of the shortened and normal pro- chains through a process called pro-collagen suicide. A large proportion of embryos expressing the transgene developed a phenotype exhibiting absence or partial retraction of the germ band with defects in nerve cord condensation and dorsal closure. Together these results indicated that, during embryogenesis, type IV collagen was an essential guiding factor for cell-matrix interactions in morphogenetic events. 相似文献
93.
Hypoxia Increases the Susceptibility to Oxidant Stress and the Permeability of the Blood-Brain Barrier Endothelial Cell Monolayer 总被引:2,自引:1,他引:1
Monique Plateel Marie-Pierre Dehouck Gérard Torpier †Roméo Cecchelli Elisabeth Teissier 《Journal of neurochemistry》1995,65(5):2138-2145
Abstract: Using a cell culture model of the blood-brain barrier (BBB), we investigated the brain capillary endothelial cell (EC) response to hypoxia. The activities of antioxidant enzymes such as glutathione peroxidase, glutathione reductase, catalase, and superoxide dismutase and the GSH level of brain capillary ECs alone or in coculture with astrocytes, as well as those of pericytes, were compared with those obtained with freshly isolated microvessels. These results demonstrated that brain capillary ECs cocultured with astrocytes and used in the presence of a coculture-conditioned medium provided a relevant in vitro model for studying the effect of hypoxia-reoxygenation at the BBB level. The effect of hypoxia on antioxidant enzymes, GSH, and ATP levels was studied, as well as the modification of the permeability to small weight molecules. A decrease in all enzymes and the GSH level could explain an increase in the susceptibility of the brain capillary ECs to further oxidant injury. Second, profound rearrangements of F-actin filaments of the ECs and a decrease in the ATP level could be associated with an increase in the permeability of the monolayer. Furthermore, an apoptotic process was detected by in situ end labeling of DNA. These results indicate that hypoxia distorts the function of ECs and that these cells in culture provide a valuable tool for exploring mechanisms after hypoxia-reoxygenation. 相似文献
94.
Abstract: Prostaglandin E2 (PGE2) delivered to the spinal cord produces an increased sensitivity to noxious (hyperalgesia) and innocuous (allodynia) stimuli. The mechanisms that underlie this effect remain unknown, but a PGE2-evoked enhancement of spinal neurotransmitter release may be involved. To address this hypothesis, we examined the effect of PGE2 on CSF concentrations of amino acids and also the modulatory effect of PGE2 on capsaicin-evoked changes of spinal amino acid concentrations using a microdialysis probe placed in the lumbar subarachnoid space. Amino acids were quantified using HPLC with fluorescence detection. Addition of 1 mM, but not 10 or 100 µM, PGE2 to the perfusate for a 10-min period (flow rate, 5 µl/min) evoked an immediate increase (80–100%) in glutamate (Glu), aspartate (Asp), taurine (Tau), glycine (Gly), and γ-aminobutyric acid (GABA) concentrations. Similarly, capsaicin infusion (0.1–10 µM) induced a dose-dependent increase in Glu, Asp, Tau, Gly, GABA, and ethanolamine levels. Significant increases in amino acid levels evoked by PGE2 or capsaicin were associated with a touch-evoked allodynia. The combination of PGE2 (10 µM) and capsaicin (0.1 or 1.0 µM) at concentrations that individually had no effect together evoked a significant increase (60–100%) in Glu, Asp, Tau, Gly, and GABA concentrations and produced tactile allodynia. These data demonstrate that spinally delivered PGE2 or capsaicin substantially elevates CSF concentrations of both excitatory and inhibitory amino acids. The capacity of PGE2 to enhance and prolong capsaicin-evoked amino acid concentrations may be one of the mechanisms by which spinal PGE2 produces hyperalgesia and allodynia. 相似文献
95.
T Subramoniam 《Journal of biosciences》1995,20(5):691-706
Unlike the other penaeiodean shrimp, the ridge back shrimp, Sicyoniaingentis does not produce a spermatophore, but transfers sperm suspended in seminal plasm. This paper reports on the histomorphology
and ultrastructure of the vas deferens with reference to its functional role in secreting the sperm bearing materials. The
vas deferens is divisible into proximal secretory, mid storage and distal ejaculatory regions. The epithelial cells lining
the proximal vas deferens are comprised of secretory and absorptive cell types. The loose sperm cells found in the lumen of
this region are in an immature condition, and are agglutinated into a compact mass with signs of spermiogenesis in the mid
vas deferens. The epithelial cells lining the mid vas deferens are short flattened cells. The distal vas deferens is ensheathed
by muscular fibres. The inner epithelial cells are highly secretory and contain numerous microvilli at the luminal end. The
sperm cord gets liquefied in this region facilitating the transfer of sperm in liquid form to the female during mating. 相似文献
96.
Joël Chopineau Stéphane Robert Laurence Fenart Roméo Cecchelli Bernard Lagoutte Stéphanie Paitier Marie-Pierre Dehouck Dominique Domurado 《Letters in Peptide Science》1997,4(4-6):313-321
Acylated proteins play a crucial role in cellphysiology because of their increased interaction withmembranes. Their isolation is difficult as aconsequence of their low cellular concentration andtheir chemical preparation is problematic due tosolubility problems. Through the use of reversedmicelles, we produced tens of milligrams of acylatedribonucleases A, chosen as a model, purified them bysemi-preparative high performance liquidchromatography (HPLC) and characterized them by analyticalHPLC, capillary electrophoresis, mass spectrometry, peptide mapping, Edman degradation and enzyme activity. We nextscrutinized the interaction with an in vitro blood–brainbarrier model and demonstrated that palmitoylated andstearoylated ribonucleases A are transported from onecompartment to the other across the cellular monolayer,in contrast to the native enzyme. 相似文献
97.
98.
Transferrin and transferrin receptors play an important role in the transport of iron into the brain. To determine whether gallium enters the brain by the same mechanism, uptakes of Ga and 59Fe have been compared under controlled conditions. Rates of gallium penetration into brain (K) were four times slower than those for 59Fe. Kin for Ga when infused with citrate were 0.88 ± 0.24 and 0.94 ± 0.39 x 10 ml gh for cerebral hemisphere and cerebellum, respectively. When infused as the transferrin complex, Ga uptake into the brain was not different from that when infused with citrate. The presence of the anti-transferrin receptor antibody OX-26 significantly reduced uptake of Fe by 60% and 64% into cerebral hemisphere and cerebellum, respectively. By contrast, pretreatment of rats with OX-26 enhanced the uptake of Ga into brain, particularly when infused with citrate; mean increases in uptake of Ga were 120% and 144% for cerebral hemisphere and cerebellum, respectively. Purified Ga-transferrin was also taken up into both brain regions examined in the presence of OX-26. These results indicate that the transport of non-transferrin bound gallium is an important mechanism for gallium uptake into brain. 相似文献
99.
In the giant-celled marine algae Valonia utricularis the turgor-sensing mechanism of the plasmalemma and the role of the tonoplast in turgor regulation is unknown because of
the lack of solid data about the individual electrical properties of the plasmalemma and the vacuolar membrane. For this reason,
a vacuolar perfusion technique was developed that allowed controlled manipulation of the vacuolar sap under turgescent conditions
(up to about 0.3 MPa). Charge-pulse relaxation studies on vacuolarly perfused cells at different turgor pressure values showed
that the area-specific resistance of the total membrane barrier (tonoplast and plasmalemma) exhibited a similar dependence
on turgor pressure as reported in the literature for nonperfused cells: the resistance assumed a minimum value at the physiological
turgor pressure of about 0.1 MPa. The agreement of the data suggested that the perfusion process did not alter the transport
properties of the membrane barrier.
Addition of 16 μm of the H+-carrier FCCP (carbonylcyanide p-trifluoromethoxyphenyhydrazone) to the perfusion solution resulted in a drop of the total membrane potential from +4 mV to
−22 mV and in an increase of the area-specific membrane resistance from 6.8 × 10−2 to 40.6 × 10−2Ωm2. The time constants of the two exponentials of the charge pulse relaxation spectrum increased significantly. These results
are inconsistent with the assumption of a high-conductance state of the tonoplast (R. Lainson and C.P. Field, J. Membrane Biol.
29:81–94, 1976).
Depending on the site of addition, the pore-forming antibiotics nystatin and amphotericin B affected either the time constant
of the fast or of the slow relaxation (provided that the composition of the perfusion solution and the artificial sea water
were replaced by a cytoplasma-analogous medium). When 50 μm of the antibiotics were added externally, the fast relaxation process disappeared. Contrastingly, the slow relaxation process
disappeared upon vacuolar addition. The antibiotics cannot penetrate biomembranes rapidly, and therefore, the findings suggested
that the fast and slow relaxations originated exclusively from the electrical properties of the plasmalemma and the tonoplast
respectively. This interpretation implies that the area-specific resistance of the tonoplast is significantly larger than
that of the plasmalemma (consistent with the FCCP data) and that the area-specific capacitance of the tonoplast is unusually
high (6.21 × 10−2 Fm−2 compared to 0.77 × 10−2 Fm−2 of the plasmalemma). Thus, we have to assume that the vacuolar membrane of V. utricularis is highly folded (by a factor of about 9 in relation to the geometric area) and/or contains a fairly high concentration of
mobile charges of an unknown electrogenic ion carrier system.
Received: 22 October 1996/Revised: 16 January 1997 相似文献
100.
In Vitro Induction of Apoptosis or Differentiation by Dopamine in an Immortalized Olfactory Neuronal Cell Line 总被引:5,自引:2,他引:3
V. Coronas F. Féron R. Hen G. Sicard F. Jourdan E. Moyse 《Journal of neurochemistry》1997,69(5):1870-1881
Abstract: Amyloid β-peptide (Aβ) is deposited as insoluble fibrils in the brain parenchyma and cerebral blood vessels in Alzheimer's disease (AD). In addition to neuronal degeneration, cerebral vascular alterations indicative of damage to vascular endothelial cells and disruption of the blood-brain barrier occur in AD. Here we report that Aβ25-35 can impair regulatory functions of endothelial cells (ECs) from porcine pulmonary artery and induce their death. Subtoxic exposures to Aβ25-35 induced albumin transfer across EC monolayers and impaired glucose transport into ECs. Cell death induced by Aβ25-35 was of an apoptotic form, characterized by DNA condensation and fragmentation, and prevented by inhibitors of macromolecular synthesis and endonucleases. The effects of Aβ25-35 were specific because Aβ1-40 also induced apoptosis in ECs with the apoptotic cells localized to the microenvironment of Aβ1-40 aggregates and because astrocytes did not undergo similar changes after exposure to Aβ25-35. Damage and death of ECs induced by Aβ25-35 were attenuated by antioxidants, a calcium channel blocker, and a chelator of intracellular calcium, indicating the involvement of free radicals and dysregulation of calcium homeostasis. The data show that Aβ induces increased permeability of EC monolayers to macromolecules, impairs glucose transport, and induces apoptosis. If similar mechanisms are operative in vivo, then Aβ and other amyloidogenic peptides may be directly involved in vascular EC damage documented in AD and other disorders that involve vascular amyloid accumulation. 相似文献