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Characteristics of the Calcium-Triggered Mitochondrial Permeability Transition in Nonsynaptic Brain Mitochondria (2000)

Kristián, Tibor ; Gertsch, Jeff ; Bates, Timothy E. ; [et al.]

Oxford UK : Blackwell Science Ltd.

Journal of neurochemistry 74 (2000), S. 0

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ISSN: 1471-4159

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: Abstract: The objective of the present study was to assess the capacity of nonsynaptic brain mitochondria to accumulate Ca2+ when subjected to repeated Ca2+ loads, and to explore under what conditions a mitochondrial permeability transition (MPT) pore is assembled. The effects of cyclosporin A (CsA) on Ca2+ accumulation and MPT pore assembly were compared with those obtained with ubiquinone 0 (Ub0), a quinone that is a stronger MPT blocker than CsA, when tested on muscle and liver mitochondria. When suspended in a solution containing phosphate (2 mM) and Mg2+ (1 mM), but no ATP or ADP, the brain mitochondria had a limited capacity to accumulate Ca2+ (210 nmol/mg of mitochondrial protein). Furthermore, when repeated Ca2+ pulses (40 nmol/mg of protein each) saturated the uptake system, the mitochondria failed to release the Ca2+ accumulated. However, in each instance, the first Ca2+ pulse was accompanied by a moderate release of Ca2+, a release that was not observed during the subsequent pulses. The initial release was accompanied by a relatively marked depolarization, and by swelling, as assessed by light-scattering measurements. However, as the swelling was 〈50% of that observed following addition of alamethicin, it is concluded that the first Ca2+ pulse gives rise to an MPT in a subfraction of the mitochondrial population. CsA, an avid blocker of the MPT pore, only marginally increased the Ca2+-sequestrating capacity of the mitochondria. However, CsA eliminated the Ca2+ release accompanying the first Ca2+ pulse. The effects of CsA were shared by Ub0, but when the concentration of Ub0 exceeded 20 μM, it proved toxic. The results thus suggest that brain mitochondria are different from those derived from a variety of other sources. The major difference is that a fraction of the brain mitochondria, studied presently, depolarized and showed signs of an MPT. This fraction, but not the remaining ones, contributed to the chemically and electron microscopically verified mitochondrial swelling.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.1471-4159.2000.0741999.x

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Alterations in Lipid and Calcium Metabolism Associated with Seizure Activity in the Postischemic Brain (2000)

Katsura, Ken-ichiro ; Turco, Elena B. Rodriguez de ; Kristián, Tibor ; [et al.]

Oxford UK : Blackwell Science Ltd.

Journal of neurochemistry 75 (2000), S. 0

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ISSN: 1471-4159

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: Abstract: Transient ischemia is known to lead to a long-lastingdepression of cerebral metabolic rate and blood flow and to an attenuatedmetabolic and circulatory response to physiological stimuli. However, thecorresponding responses to induced seizures are retained, demonstratingpreserved metabolic and circulatory capacity. The objective of the presentstudy was to explore how a preceding period of ischemia (15 min) alters therelease of free fatty acids (FFAs) and diacylglycerides (DAGs), the formationof cyclic nucleotides, and the influx/efflux of Ca2+, followingintense neuronal stimulation. For that purpose, seizure activity was inducedwith bicuculline for 30 s or 5 min at 6 h after the ischemia. ExtracellularCa2+ concentration (Ca2+e) was recorded, andthe tissue was frozen in situ for measurements of levels of FFAs, DAGs, andcyclic nucleotides. Six hours after ischemia, the FFA concentrations werenormalized, but there was a lowering of the content of 20:4 in the DAGfraction. Cyclic AMP levels returned to normal values, but cyclic GMP contentwas reduced. Seizures induced in postischemic animals showed similar changesin Ca2+e, as well as in levels of FFAs, DAGs, and cyclicnucleotides, as did seizures induced in nonischemic control animals, with theexception of an attenuated rise in 20:4 content in the DAG fraction. Weconclude that, at least in the neocortex, seizure-induced phospholipidhydrolysis and cyclic cAMP/cyclic GMP formation are not altered by a precedingperiod of ischemia, nor is there a change in the influx/efflux ofCa2+ during seizure discharge or in associated spreadingdepression.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.1471-4159.2000.0752521.x

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Is Neuronal Injury Caused by Hypoglycemic Coma of the Necrotic or Apoptotic Type? (2000)

Ouyang, Yi-Bing ; He, Qing-Ping ; Li, Ping-An ; [et al.]

Springer

Neurochemical research 25 (2000), S. 661-667

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ISSN: 1573-6903

Keywords: Brain ; caspase ; cytochrome c ; hypoglycemia ; Bcl-2 family

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In this study, we explored if a 30 minute period of hypoglycemic coma yields damage which shows some features associated with apoptosis. To that end, we induced insulin-hypoglycemic coma of 30 min duration, and studied brain tissues after the coma period, and after recovery period of 30 min, 3 h, and 6 h. Histopathological data confirmed neuronal damage in all of the vulnerable neuronal populations. Release of cytochrome c (cyt c), assessed by Western Blot, was observed in the neocortex and caudoputamen after 3 and 6 h of recovery. In these regions, the caspase-like activity increased above control after 6 h of recovery. By laser-scanning confocal microscopy, a clear expression of Bax was observed after 30 min of coma in the superficial layers of the neocortex, reaching a peak after 30 min of recovery. Punctuate immunolabeling surrounding nuclei in soma and dendrites in cortical pyramidal neurons likely represents mitochondria, which suggests that Bax protein assembled at the surface of mitochondria in vulnerable neocortical neurons. It is concluded that although previous morphological data have suggested that cells die by necrosis, neuronal damage after hypoglycemic coma shows some features of apoptosis.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1007563104170

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