Effects of Hypoglycaemia and Hypoxia on the Intracellular pH of Cerebral Tissue as Measured by 31P Nuclear Magnetic Resonance

Changes in high-energy phosphate metabolites and the intracellular pH (pHi) were monitored in cerebral tissue during periods of hypoglycaemia and hypoxia using 31P nuclear magnetic resonance spectroscopy. Superfused brain slices were loaded with deoxyglucose at a concentration shown not to impair cerebral metabolism, and the chemical shift of the resulting 2-deoxyglucose-6-phosphate (DOG6P) peak was used to monitor the pHi. In some experiments with low circulating levels of Pi, the intracellular Pi was visible and indicated a pH identical to that of DOG6P, an observation validating its use as an indicator of pHi in cerebral tissue. The pHi was found to be unchanged during moderate hypoglycaemia; however, mild hypoxia (PO2 = 16.4 kPa) and severe hypoglycaemia produced marked reductions from the normal of 7.2 to 6.8 and 7.0, respectively. Hypoglycaemia caused a fall in the level of both phosphocreatine (PCr) and ATP, whereas hypoxia affected PCr alone, as shown previously. However, the fall in pHi was similar during the two insults, thus indicating that the change in pH is not directly linked to lactate production or to the creatine kinase reaction.     

Somatostatin binding to dissociated cells from rat cerebral cortex

A method has been developed for the study of somatostatin (SS) binding to dissociated cells from rat cerebral cortex. Binding of [¹²⁵I][Tyr¹¹]SS to cells obtained by mechanical dissociation of rat cerebral cortex was dependent on time and temperature, saturable, reversible and highly specific. Under conditions of equilibrium, i.e., 60 min at 25°C, native SS inhibited tracer binding in a dose-dependent manner. The Scatchard analysis of binding data was linear and yielded a dissociation constant of 0.60±0.08 nM with a maximal binding capacity of 160±16 fmol/mg protein. The binding of [¹²⁵I][Tyr¹¹]SS was specific as shown in experiments on tracer displacement by the native peptide, SS analogues, and unrelated peptides.     

Nicotinic Autoreceptors Mediating Enhancement of Acetylcholine Release Become Operative in Conditions of "Impaired" Cholinergic Presynaptic Function

Abstract: The existence in the mammalian CNS of release-inhibiting muscarinic autoreceptors is well established. In contrast, few reports have focused on nicotinic autoreceptors mediating enhancement of acetylcholine (ACh) release. Moreover, it is unclear under what conditions the function of one type of autoreceptor prevails over that of the other. Rat cerebrocortex slices, prelabeled with [³H]choline, were stimulated electrically at 3 or 0.1 Hz. The release of [³H]ACh evoked at both frequencies was inhibited by oxotremorine, a muscarinic receptor agonist, and stimulated by atropine, a muscarinic antagonist. Nicotine, ineffective at 3 Hz, enhanced [³H]ACh release at 0.1 Hz; mecamylamine, a nicotinic antagonist, had no effect at 3 Hz but inhibited [³H]ACh release at 0.1 Hz. The cholinesterase inhibitor neostigmine decreased [³H]ACh release at 3 Hz but not at 0.1 Hz; in the presence of atropine, neostigmine potentiated [³H]ACh release, an effect blocked by mecamylamine. In synaptosomes depolarized with 15 mM KCI, ACh inhibited [³H]ACh release; this inhibition was reversed to an enhancement when the external [Ca²⁺] was lowered. The same occurred when, at 1.2 mM Ca²⁺, external [K⁺] was decreased. Oxotremorine still inhibited [³H]ACh release at 0.1 mM Ca²⁺. When muscarinic receptors were inactivated with atropine, the K⁺ (15 mM)-evoked release of [³H]ACh (at 0.1 mM Ca²⁺) was potently enhanced by ACh acting at nicotinic receptors (EC₅₀? 0.6 µM). In conclusion, synaptic ACh concentration does not seem to determine whether muscarinic or nicotinic autoreceptors are activated. Although muscarinic autoreceptors prevail under normal conditions, nicotinic autoreceptors appear to become responsive to endogenous ACh and to exogenous nicotinic agents under conditions mimicking impairment of ACh release. Our data may explain in part the reported efficacy of cholinesterase inhibitors (and nicotinic agonists) in Alzheimer's disease.     

Kinetics of tert-[35S]Butylbicyclophosphorothionate Binding in the Cerebral Cortex of Newborn and Adult Rats: Effects of GABA and Receptor Desensitization

Abstract: The effects of GABA on the kinetics of tert -[³⁵S]butylbicyclophosphorothionate ([³⁵S]TBPS) binding to the convulsant site of GABA_A receptors were studied in membrane suspensions from the cerebral cortex of newborn (1-day-old) and adult (90-day-old) rats. TBPS dissociation was biphasic in neonates and adults, indicating that more than one interconvertible state of [³⁵S]TBPS binding sites may be present in the cerebral cortex. In the absence of GABA, the fast ( t _1/2, 11 min) and slow ( t _1/2, 77 min) components of TBPS dissociation in newborn rats were approximately fourfold slower than in adults. The acceleration of the dissociation rates caused by 2 µ M GABA, however, was more robust in neonates than in adults (six- to ninefold vs. twofold increase, respectively). Moreover, the dissociation rates of TBPS in membranes preincubated with 2 µ M GABA (dissociation started by adding 40 µ M picrotoxin) were two- to fourfold slower than in membranes preincubated without GABA (dissociation started by adding 40 µ M picrotoxin plus 2 µ M GABA). Taken together, these results suggest that (1) the closed state of GABA_A receptors is associated with a more effective steric barrier for the binding of TBPS in neonates compared with adults, (2) GABA produces a larger acceleration of the binding kinetics of TBPS in neonates than in adults, and (3) long incubations with GABA may cause receptor desensitization, which in turn slows down the dissociation rates of TBPS.     

Is the Mg2+-ATP-dependent proton pumping activity of the synaptic vesicles a factor involved in the cerebral hypoxia?

The changes in the Mg²⁺-dependent V-type ATPase activity and the Mg²⁺-ATP-dependent H⁺ pumping activity of the synaptic vesicles from the cerebral cortex of rats submitted to intermittent chronic (4 weeks) mild or severe hypoxia were evaluated. The adaptation to the chronic severe hypoxia increases both the ATPase and the H⁺ pumping activities which are inhibited by NEM with an exponential relationship between the IC₅₀ values and the in vivo O₂ concentration. The Mg²⁺-dependent increase in H⁺ pumping activity of synaptic vesicles from the rats subjected to in vivo chronic hypoxia may be antagonized by nigericin (dissipating ΔpH) and by FCCP (dissipating ΔpH and Δ_ΨSV). In contrast, valinomycin (dissipating the Δ_ΨSV and facilitating an enhancement in ΔpH) increases in vitro the H⁺ pumping activity that is inhibited by the addition of high concentration of K gluconate (reducing the rate of K⁺ efflux). The preincubation of vesicles from hypoxic rats with FCCP, but not with nigericin, inhibits the valinomycin-increased H⁺ pumping activity.l-glutamate increases the H⁺ pumping activity in synaptic vesicles from the cerebral cortex of chronic hypoxic rats, whereas other amino acids (i.e.,l-aspartate andl-homocysteate) and glutamate analogs (i.e., quisqualate and ibotenate) are ineffective. The adaptation to both chronic intermittent severe hypoxia and in vivo treatment with posatireline causes a decrease in the Mg²⁺-ATPase activity consistent with the decrease in the H⁺ pumping one of the synaptic vesicles. The addition of nigericin into incubation medium magnifies the decrease in the H⁺ pumping activity, while the addition of FCCP is ineffective, suggesting that the treatment with posatireline interferes with the Δ_ΨSV component in the of the synaptic vesicles from rats submitted to chronic hypoxia. The results of the in vivo and in vitro experiments suggest that in the synaptic vesicles from hypoxic rats the Δ_ΨSV component in may be most effective in increasing the Mg²⁺-ATP-dependent H⁺ pumping activity.     

大鼠大脑皮层中钙调神经磷酸酶活力的时空变化

以ＰＮＰＰ为底物测定了超离心制备的大鼠出生后早期和成年大脑皮层亚细胞各组分中钙调神经磷酸酶的活力。实验结果表明：（ｌ）钙调神经磷酸酶活力广泛地存在于胞液和突触部分,并且各亚细胞组分有明显差异。成年大鼠大脑皮层中ＣａＮ活力相对最高水平是在突触体,突触质,胞液,重的和轻的突触膜部分。（２）大鼠大脑皮层突触体中ＣａＮ活力在出生后第２周和第３周出现高峰的平台期,这与突触发生的高峰期是一致的。在胞液和重的突触膜中ＣａＮ活力最高水平是在出生后的第７ｄ,而在突触质和轻的突触膜中是在第２０ｄ。总之,这些发现证实,在脑发育期间,ＣａＮ活力是依照区域和时间性控制的,提示ＣａＮ可能参与了突触功能作用。     

Astrocytes alter their polarity in organotypic slice cultures of rat visual cortex

The ultrastructure of astrocytes in an organotypic slice culture of the rat visual cortex was investigated using ultrathin sections and freeze-fracture replicas. After a culture period of 9–15 days, a glial scaffold formed that separated the bulk of the slice neuropil from the medium and the underlying plasma clot. However, the glial cells and processes did not build a dense barrier but allowed the outgrowth of neurites. A basal lamina covering the medium-oriented surface of the astrocytes was not found. In freeze-fracture replicas, orthogonal arrays of particles (OAP) were characteristic components of astrocytic membranes. The OAP density in membranes bordering the medium was 35±13 OAP/m², corresponding to 2.5% of this membrane area; the OAP density in membranes within the slice neuropil was 22±12 OAP/², corresponding to 1.4% of this membrane area. Although the difference was significant, it was greatly reduced when comparing OAP densities in endfoot and non-endfoot membranes in vivo. Another mode of polarity was recognized in astrocytes of the organotypic slice culture. In membranes of astrocytes bordering upon the medium, the density of non-OAP intramembranous particles (IMP) was clearly higher (1130±136 IMP/ m²) than in membranes of astrocytes in the center of the slice (700±172 IMP/m²). This pronounced IMP-related polarity was observed neither in vivo nor in cultured astrocytes. The present study suggests, together with data from the literature, that the distribution of astrocytic OAP across the cell surface is influenced by the existence of a basal lamina and neuronal activity, and that astrocytes possess a more remarkable plasticity of membrane structure than previously suspected.     

急性脑出血综合治疗的几个问题探讨：附死亡80例分析

通过对８０例急性脑出血死亡组分析,发现死于脑疝的占６２．５％,脑疝与一种或二种以上合并症同存者占７７．５％,显著高于存活组（Ｐ＜０．０１）．它们互为因果,加速死亡。因此,应重视早期或超早期采用简易定向锥颅脑内血肿碎吸术吸除血肿,同时注意维持生命体征稳定,加强脱水降颅压,预防、控制合并症等综合治疗。且要全面分析,相互兼顾,正确处置。这是帮助机体渡过调控障碍难关,挽救生命的有效治疗措施。     

Transcription-Independent Activation of Ornithine Decarboxylase Activity by Heparin in Cloned Cerebral Endothelial Cells

Abstract: Heparin, a highly sulfated glycosaminoglycan, is known to be obligatory for long-term endothelial cell cultures; it potentiates the mitogenic activities of endothelial cell growth factors and prolongs the replicative life span of the cells. Here we have shown that besides its growth factor-supportive role, heparin exerts a specific action on cerebral capillary endothelial cells (cECs), unrelated to serum or growth factors, by increasing activity of ornithine decarboxylase (ODC; EC 4.1.1.17) in these cells. For our experiments we have used two different types of cloned cECs: type I cECs, grown in the presence of endothelial cell growth factor and heparin, and type II cECs, usually cultivated without growth factors. Heparin action on ODC activity was shown to be dose dependent within the range of 1–100 μg/ml. Increasing concentrations of or depletion of endothelial cell growth factor from type I cultures had no effect on ODC activity. The increase in enzyme activity was highest after 30 min to 1 h of heparin treatment. As evidenced by northern analysis, the heparin-mediated enhancement of ODC activity was not accompanied by changes of ODC mRNA levels. Studies of DNA replication revealed that in the absence of heparin-binding growth factors, heparin did not affect the proliferative activity of cloned cECs.     

Calcium/Calmodulin-Stimulated Protein Kinase II Is Present in Primary Cultures of Cerebral Endothelial Cells

Abstract: Calcium/calmodulin-stimulated protein kinase II (CaMPK II). a major kinase in brain, has been established to play an important role in neurotransmitter release and organization of postsynaptic receptors, and it is known to be involved in long-term potentiation and memory. Less is known about the function of this enzyme in nonneural cells. Here we report on the production, presence, and phosphorylation of the α-subunit of CaM-PK II in primary cultures of cerebral endothelial cells. These results raise the possibility that α-CaM-PK II can act as one of the key enzymes of calcium-mediated intracellular signaling in the cerebral endothelial cells and suggest that α-CaM-PK II may participate in such basic cellular processes as permeability in physiological and pathological conditions.