我国神经康复领域随机对照试验现状的初步分析

国际公认,大样本ＲＣＴ和联合多个ＲＣＴ的系统评价（ＳｙｓｔｅｍａｔｉｃＲｅｖｉｅｗＳＲ）是指导临床治疗实践最可靠的研究依据〔１～３〕。为了解我国神经康复领域ＲＣＴ的现状,我们查阅了３种康复专业杂志,对照国际标准进行分析并报告如下。１方法自１９９８年１...     

Inositol hexakisphosphate kinase-2 determines cellular energy dynamics by regulating creatine kinase-B

Inositol hexakisphosphate kinases (IP6Ks) regulate various biological processes. IP6Ks convert IP6 to pyrophosphates such as diphosphoinositol pentakisphosphate (IP7) and bis-diphosphoinositol tetrakisphosphate (IP8). IP7 is produced in mammals by a family of inositol hexakisphosphate kinases, IP6K1, IP6K2, and IP6K3, which have distinct biological functions. The inositol hexakisphosphate kinase 2 (IP6K2) controls cellular apoptosis. To explore roles for IP6K2 in brain function, we elucidated its protein interactome in mouse brain revealing a robust association of IP6K2 with creatine kinase-B (CK-B), a key enzyme in energy homeostasis. Cerebella of IP6K2-deleted mice (IP6K2-knockout [KO]) produced less phosphocreatine and ATP and generated higher levels of reactive oxygen species and protein oxidative damage. In IP6K2-KO mice, mitochondrial dysfunction was associated with impaired expression of the cytochrome-c1 subunit of complex III of the electron transport chain. We reversed some of these effects by combined treatment with N-acetylcysteine and phosphocreatine. These findings establish a role for IP6K2–CK-B interaction in energy homeostasis associated with neuroprotection.

Inositol pyrophosphates are versatile messenger molecules that mediate a variety of cellular functions, including cell growth, apoptosis, endocytosis, and cell differentiation. The most extensively studied inositol pyrophosphate, diphosphoinositol pentakisphosphate (IP7), displays a 5′-diphosphate (1, 2). IP7 is generated in mammals by a family of inositol hexakisphosphate kinases (IP6Ks) (3, 4). IP6Ks exists in three isoforms: IP6K1, IP6K2, and IP6K3. Inositol hexakisphosphate kinase-2 (IP6K2) sensitizes cells to apoptosis (5, 6). Mice with targeted deletion of IP6K2 display an increased incidence of aero-digestive tract carcinoma (7). Cell survival associated with heat shock protein 90 also involves IP6K2 (8, 9).We previously reported a major role for IP6K2 in the disposition of cerebellar granule cells as well as Purkinje cell morphology and motor coordination. The influence of IP6K2 upon cerebellar disposition involved protein 4.1N, both of which were highly expressed in cerebellar granule cells (10).To further assess the functions of IP6K2 in the brain, we explored its binding partners using coimmunoprecipitation and tandem liquid chromatography mass spectrometry (LC-MS/MS). Here, we report that IP6K2 robustly interacts with creatine kinase-B (CK-B), which regulates energy homeostasis of cells and exists in two forms, brain type (CK-B) and muscle type (CK-M). CK catalyzes the reversible transfer of the phosphate group of phosphocreatine to ADP to yield ATP (11, 12). A functional interplay between mitochondrial and cytosolic isoforms of CK regulates cellular energy homeostasis. Cytosolic CK rephosphorylates locally produced free ADP and increases creatine globally, while the mitochondrial enzyme catalyzes the conversion of creatine to phosphocreatine utilizing mitochondrial ATP (13–15).Here, we show that IP6K2 loss leads to decreased CK-B expression, reduced ATP levels, and diminished mitochondrial activity associated with increased oxidative stress. About 80 to 90% of ATP is generated in the mitochondria by oxidative phosphorylation, and diminished ATP levels are the immediate effect of mitochondrial dysfunction. Loss of IP6K2 and CK-B reflects the suppression of the mitochondrial cytochrome c1 expression, a component of complex III of the mitochondrial electron transport chain. In the present study, we report a physiologic association of CK-B and IP6K2, whose disruption impacts mitochondrial functions.Dendritic morphogenesis was reduced in IP6K2-deficient neurons and was rescued by restoring normal levels of ATP. These observations reveal an essential role of IP6K2 in the energy production of the brain. Our findings indicate that IP6K2 is a key regulator of mitochondrial homeostasis which promotes neuroprotection.     

The diagnostic value of the fibrinogen/fibrin fragment E antigen assay in clinically suspected deep vein thrombosis

We have evaluated the fibrinogen/fibrin fragment E antigen assay as a diagnostic test in patients with clinically suspected venous thrombosis by comparing the results of this assay with venography in 272 patients. The result of the fragment E antigen assay was elevated in 79 of 80 patients with positive venograms for recent venous thrombosis (sensitivity 99%) and within the normal range in 161 of 192 patients with normal venograms (specificity 84%). The fragment E assay was also evaluated in 130 medical and surgical controls without evidence of venous thrombosis by leg scanning and the test was found to be relatively nonspecific. However, in the patient group under study, a correct clinical diagnosis of no thrombosis, based on a normal fragment E result, was made in 161 of 162 cases (negative predictive value of 99%). Therefore, a normal test result effectively excludes a diagnosis of venous thrombosis in clinically symptomatic patients. The assay, as currently performed, is technically demanding and takes 24 hr to complete. Therefore, it will have to be simplified before it can be applied to clinical practice.     

Hemostasis Laboratory: Assays for Platelet Function and Von Willebrand Disease

Journal of Thrombosis and Thrombolysis -     

Evidence for the contribution of non-covalent steroid interactions between DNA and topoisomerase in the genotoxicity of steroids

Fifty two steroids and 9 Vitamin D analogs were docked into ten crystallographically-defined DNA dinucleotide sites and two human topoisomerase II ATP binding sites using two computational programs, Autodock and Surflex. It is shown that both steroids and Vitamin D analogs exhibit a propensity for non-covalent intercalative binding to DNA. A higher predicted binding affinity was found, however, for steroids and the ATP binding site of topoisomerase; in fact these drugs exhibited among the highest topo II binding observed in over 1370 docked drugs. These findings along with genotoxicity data from 26 additional steroids not subjected to docking analysis, support a mechanism wherein the long known, but poorly understood, clastogenicity of steroids may be attributable to inhibition of topoisomerase. A “proof of principle” experiment with dexamethasone demonstrated this to be the likely mechanism of clastogenicity of, at least, this steroid. The generality of this proposed mechanism of genotoxicity across the steroids and vitamin-D analogs is discussed.     

The effects of biphasic waveform design on post-resuscitation myocardial function

OBJECTIVES: This study examined the effects of biphasic truncated exponential waveform design on survival and post-resuscitation myocardial function after prolonged ventricular fibrillation (VF). BACKGROUND: Biphasic waveforms are more effective than monophasic waveforms for successful defibrillation, but optimization of energy and current levels to minimize post-resuscitation myocardial dysfunction has been largely unexplored. We examined a low-capacitance waveform typical of low-energy application (low-energy biphasic truncated exponential [BTEL]; 100 microF, < or =200 J) and a high-capacitance waveform typical of high-energy application (high-energy biphasic truncated exponential [BTEH]; 200 microF, > or =200 J). METHODS: Four groups of anesthetized 40- to 45-kg pigs were investigated. After 7 min of electrically induced VF, a 15-min resuscitation attempt was made using sequences of up to three defibrillation shocks followed by 1 min of cardiopulmonary resuscitation. Animals were randomized to BTEL at 150 J or 200 J or to BTEH at 200 J or 360 J. RESULTS: Resuscitation was unsuccessful in three of the five animals treated with BTEH at 200 J. All other attempts were successful. Significant therapy effects were observed for survival (p = 0.035), left ventricular ejection fraction (p < 0.001), stroke volume (p < 0.001), fractional area change (p < 0.001), cardiac output (p = 0.044), and mean aortic pressure (p < 0.001). Hemodynamic outcomes were negatively associated with energy and average current but positively associated with peak current. Peak current was the only significant predictor of survival (p < 0.001). CONCLUSIONS: Maximum survival and minimum myocardial dysfunction were observed with the low-capacitance 150-J waveform, which delivered higher peak current while minimizing energy and average current.     

Phorbol ester effects on neurotransmission: interaction with neurotransmitters and calcium in smooth muscle.

Stimulation of the phosphatidylinositol cycle by neurotransmitters generates diacylglycerol, an activator of protein kinase C, which may regulate some forms of neurotransmission. Phorbol esters, potent inflammatory and tumor-promoting compounds, also activate protein kinase C. We demonstrate potent and selective effects of phorbol esters on smooth muscle, indicating a role for protein kinase C in neurotransmission. In rat vas deferens and dog basilar artery, phorbol esters synergize with calcium to mimic the contractile effects of neurotransmitters that act through the phosphatidylinositol cycle. In guinea pig ileum and rat uterus, phorbol esters block contractions produced by these neurotransmitters.     

Competition between T cells maintains clonal dominance during memory inflation induced by MCMV

Both human cytomegalovirus (HCMV) and murine cytomegalovirus (MCMV) establish persistent infections that induce the accumulation of virus‐specific T cells over time in a process called memory inflation. It has been proposed that T cells expressing T‐cell receptors (TCRs) with high affinity for HCMV‐derived peptides are preferentially selected after acute HCMV infection. To test this in the murine model, small numbers of OT‐I transgenic T cells, which express a TCR with high affinity for the SIINFEKL peptide, were transferred into congenic mice and recipients were challenged with recombinant MCMV expressing SIINFEKL. OT‐I T cells were selectively enriched during the first 3 weeks of infection. Similarly, in the absence of OT‐I T cells, the functional avidity of SIINFEKL‐specific T cells increased from early to late times postinfection. However, even when exceedingly small numbers of OT‐I T cells were transferred, their inflation limited the inflation of host‐derived T cells specific for SIINFEKL. Importantly, subtle minor histocompatibility differences led to late rejection of the transferred OT‐I T cells in some mice, which allowed host‐derived T cells to inflate substantially. Thus, T cells with a high functional avidity are selected shortly after MCMV infection and continuously sustain their clonal dominance in a competitive manner.