Effects of Metabotropic Glutamate Receptor Stimulation on Cerebral O2 Consumption and Blood Flow During Focal Cerebral Ischemia in Rats

This investigation was performed to evaluate the effects of ACPD [(1S, 3R)-1-aminocyclopentane-1,3-dicarboxylic acid], a metabotropic glutamate receptor agonist, on cerebral O₂ consumption during focal cerebral ischemia. Male Wistar rats were placed in control (n = 7) and ACPD (n = 7) groups under isoflurane anesthesia. Twenty minutes after middle cerebral artery (MCA) occlusion, gauze sponges with 10^–5 M ACPD or normal saline were placed on the ischemic cortex (IC) for a period of 40 min and were changed every 10 min. One hour after MCA occlusion, regional cerebral blood flow (rCBF) was determined using the C¹⁴-iodoantipyrine autoradiographic technique. Regional arterial and venous oxygen saturation were determined using microspectrophotometry. There were no statistical differences in vital signs, blood gases, and hemoglobin between the groups. In the control group, the cerebral blood flow and oxygen consumption of the IC were significantly lower than the contralateral cortex (rCBF: 45 ± 11 vs. 110 ± 11 ml/min/100 g, O₂ consumption: 2.9 ± 0.4 vs. 5.4 ± 1.1 ml O₂/min/100 g). ACPD did not change regional cerebral blood flow of the IC, but did significantly increase the oxygen extraction (7.8 ± 0.2 vs. 6.9 ± 0.3 ml O₂/100 ml) and oxygen consumption of the IC (4.3 ± 1.5 vs. 2.9 ± 0.4) compared to the control IC. Our data demonstrated that topical application of 10^–25 M ACPD to the ischemic area worsened cerebral O₂ balance. These data suggest that metabotropic glutamate receptors are not maximally activated during ischemia in the temporal cortex.     

白细胞介素-2对大鼠心肌Ca2+ATPase和Na+ /K+ATPase的影响

为了探讨IL－2对心肌细胞内钙影响的可能机制,用光学法检测心肌肌浆网Ca^2 ATPase的活性,以及细胞膜Ca^2 ATPase和Na^ /K^ ATPase的活性。结果：（1）用IL－2（10、40、200、800U/ml）灌流心脏后,其肌浆网Ca^2 ATPase的活性随IL－2浓度的升高而增强;（2）在ATP浓度为0.1-4mmol/L时,Ca^2 ATPase的活性随ATP浓度的升庙则增强,由IL－2（200U／ml）灌流后的心脏获得肌浆网（SR）,其Ca^2 ATPase的活性对ATP的反应强于对照组;（3）在[Ca^2 ]为1－40μmol/L时,心脏SR Ca^2 ATPase的活性随[Ca^2 ]增加而增强,而IL－2灌流心脏后分离的SR,其Ca^2 ATPase活性在[Ca^2 ]升高时没有明显改变;（4）用nor-BNI(10nmol/L）预处理5min后,IL－2（200U／ml）灌流后不再使SR Ca^2 ATPase的活性增强;（5）用PTX（5mg/L）预处理后,IL－2对SR Ca^2 ATPase的影响减弱;（6）用磷脂酶C（PLC）抑制剂U73122（5μmol/L）处理后,IL－2不再使SR Ca^2 ATPase活性增高;（7）用IL－2直接处理从正常大鼠分离的SR后,对SR Ca^2 ATPase活性无明显影响;（8）IL－2灌流后,对心肌细胞膜Ca^2 ATPase和Na^ /K^ ATPase活性没有显著。上述结果表明,IL－2灌流心脏后使心肌肌浆网Ca^2 ATPase的活性增加,心肌细胞膜上的κ－阿片受体及其下游的G蛋白和PLC介导了IL－2的作用。尽管IL－2提高SR Ca^2 ATPase对ATP的反应性,但却抑制SR Ca^2 ATPase对钙离子的敏感性。IL－2对心肌细胞膜Ca^2 ATPase和Na^ /K^ ATPase的活性无明显影响。     

The first intron of rice EPSP synthase enhances expression of foreign gene

The first intron (EPI) of rice 5-enolpyruvylshikimate 3-phosphate synthase gene was isolated by PCR from one clone with genomic EPSP synthase gene. Sequence analysis showed that the first intron is 704 bp in length with 36.2% G+C content. To investigate its effect on expression of foreign gene, we inserted the first intron between CaMV35S promoter and β-glucuronidase (GUS) gene. The transient expression results showed that GUS could be expressed effectively with EPI. The GUS activity in transgenic tobacco shows that the EPI can greatly enhance the expression level of β-glucuronidase (P < 0.01) compared with transgenic tobacco without the first intron, and 3-to 6-fold increase in GUS activity in some transgenic tobaccos. Northern blot indicated the first intron was spliced from GUS pre-mRNA, and the steady-state mRNA levels of GUS with EPI in transgenic tobaccos were higher than that in transgenic tobacco without EPI, which suggested that the first intron of EPSP was a non-translated intron.     

代谢性谷氨酸受体配体(s)-4C3HPG对大鼠脑缺血耐受性诱导的影响

目的：观察侧脑室注射代谢型谷氨酸受体1／5亚型（mGluR1/5)配体（s)-4C3HPG对海马脑缺血耐受（BIT）诱导的影响,以探讨mGLUR1/5在BIT诱导中的作用。方法：采用大鼠四血管闭塞全脑缺血模型（4－vessel occlusion,4VO),应用硫堇染色和GFAP免疫组化法。36只大鼠椎动脉凝闭后分为sham组、单纯缺血组、BIT组和（s)-4C3HPG组,其中（s)-4C3HPG组又按所给药物剂量不同,分为0．2、0．04和0．008mg三个亚组。所有动物均在手术后或末次缺血后7d处死取材观察。结果：（1）单纯8min缺血可使海马CA1区组织学分级升高、锥体神经元密度降低和胶质纤维酸性蛋白（glial fibrillary acidic protein,GFAP)阳性表达增加（P＜0．05vs sham）.(2)BIT组未见单纯缺血组的上述变化,表明CIP可防止后续8min缺血造成的神经元损伤。（3）CIP的这种保护作用可被（s)-4C3HPG阻断,表现为海马CA1区组织学分级升高和锥体神经元密度降低（P＜0．05 vs sham)。这种变化与（s)-4C3HPG的剂量呈现明显的相关性,即剂量越大,上述改变越明显。结论：（s)-4C3HPG可阻断CIP诱导BIT的作用,提示mGluR1/5参与BIT的诱导。     

Immunolocalization of multiple Galpha subunits in mammalian spermatozoa and additional evidence for Galphas

Like somatic cells, mammalian spermatozoa appear to contain several different heterotrimeric G protein alpha-subunits that could mediate specialized cell responses. However, the precise Galpha subunits present, their subcellular location and their possible roles are still incompletely defined. In this study, using commercially available specific antibodies, we have shown by immunoblotting that Galpha(s) is present in human and mouse sperm lysates. Immunolocalization using intact spermatozoa from both species revealed this protein to be in the acrosomal cap region and the flagellum, particularly the principal piece. Treatment of permeabilized mouse spermatozoa with cholera toxin led to enhanced ADP-ribosylation of a protein the same size as Galpha(s), as well as an increase in cAMP, providing further proof for Galpha(s). Evidence for the presence and distinct localizations of Galpha(i2), Galpha(i3), Galpha(o), Galpha(q/11), and Galpha(olf) was also obtained. Of particular interest was Galpha(i2) which, like Galpha(s), was present in the acrosomal cap region and flagellum, the same regions where stimulatory and inhibitory adenosine receptors are localized. These observations are consistent with our hypothesis that G proteins mediate adenosine receptor modulation of adenylyl cyclase, with consequent alterations in cAMP production, apparently crucial for the spermatozoon's acquisition and maintenance of fertilizing ability.     

Calcitonin acts as a first messenger to regulate adenylyl cyclase/cAMP and mammalian sperm function

Calcitonin stimulates capacitation in uncapacitated mouse spermatozoa and then inhibits spontaneous acrosome loss in capacitated cells, responses similar to those elicited by fertilization promoting peptide (FPP), a peptide known to regulate the adenylyl cyclase/cAMP pathway. This study investigated the hypothesis that calcitonin also modulates this pathway. Calcitonin significantly stimulated cAMP production in uncapacitated spermatozoa and then inhibited it in capacitated cells; the magnitude of both stimulatory and inhibitory changes was similar to that obtained with FPP but the inhibitory responses to FPP preceded those of calcitonin. This possibly reflects the involvement of two different adenosine receptors in response to FPP compared with one calcitonin receptor. Calcitonin receptors were located on the acrosomal cap and the flagellum, the midpiece having a greater abundance than the principal piece. Although both calcitonin and adenosine receptors are found in the head and flagellum, there was no evidence for cross-talk between them. Chlortetracycline investigations to determine the minimum extracellular Ca(2+) requirement for responses to calcitonin revealed that calcitonin significantly stimulated capacitation in Ca(2+)-deficient medium but FPP did not. Calcitonin also significantly stimulated cAMP production under these conditions, and similarly preincubated suspensions, when diluted into +Ca(2+) medium, were significantly more fertile in vitro than untreated controls. These results indicate that calcitonin, like FPP, acts as a first messenger to regulate the production of cAMP and mammalian sperm function, but the differences in Ca(2+) requirements suggest that calcitonin and FPP may regulate different isoforms of adenylyl cyclase.     

Real-time NMR kinetic studies provide global and residue-specific information on the non-cooperative unfolding of the beta-trefoil protein,interleukin-1beta

The interleukin-1beta (IL-1beta) structural motif is a beta-trefoil super fold created by six two-stranded beta-hairpins. Turns are thus particularly important in creating the topology and the arrangement of beta-strands in this structural motif. In contrast to the signals observed in optical studies, real-time NMR kinetic investigations of the denaturant-induced unfolding of interleukin-1beta provide direct, global, and residue-specific information on the structural nature of the unfolding reaction. Heterogeneity in the individual amino acid residue kinetics reveals a rugged unfolding landscape. The relative kinetic stability of native-like turns supports low temperature molecular dynamics predictions of turn-controlled unfolding.     

Primary cortical neuronal cultures reduce cellular energy utilization during anoxic energy deprivation

It has been widely hypothesized that neurons reduce cellular energy use in response to periods of energy deprivation. To test this hypothesis, we measured rates of energy use under normoxia and anoxia in immature (6 days in vitro) and mature (13 days in vitro) neuronal cultures. During anoxic incubation immature and mature cultures reduced cellular energy use by 80% and 45%, respectively. Reduced cellular energy use dramatically affected ATP depletion in neuronal cultures under anoxia. Intracellular ATP stores were expected to deplete within 3 min of anoxia. However, ATP was maintained at decreased but stabilized concentrations for at least 3 h. The capacity of neuronal cultures to reduce cellular energy use during anoxia correlated with their sensitivity towards simulated ischemia. Immature cultures, with the largest capacity to reduce cellular energy use, survived simulated ischemia 2.5 times longer than mature cultures. The addition of glutamate receptor antagonists to mature cultures further decreased cellular energy use during anoxia and significantly extended their survival time under simulated ischemia. This study verifies that primary cortical neuronal cultures reduce cellular energy use during energy deprivation. Additionally, we show that maturation of glutamate receptor activity increases non-depressible energy demand in neuronal cultures.