Degradation of deamidated proteins by tissue proteinases

The rate of native and deamidized serum albumin in vitro splitting by the brain, liver, kidney, testicle and spleen tissue proteinases was studied at pH 3.2, 4.8, 7.2 and 8.5. The deamidized preparation of serum albumin was obtained during its incubation under sterile conditions at 37 degrees C. The amount of amide groups in the process of protein incubation decreased by 19.4% mainly due to readily hydrolyzed asparagine groups. Desamidated serum albumin is splitted by tissue proteinases more intensively than native albumin. Intensity of the splitting depends on pH of the incubation medium and proteinase source. Specific proteolytic activity to desamidated serum albumin is shown to decrease in old rats as compared to young ones.     

Alteration in brain proteins following occlusion of the middle cerebral artery in rat.

The effects of permanent focal ischemia on specific proteins of the cerebral hemisphere were studied by unilateral occlusion of the middle cerebral artery (MCAO) in rat. Brain proteins were prepared 72 h after the occlusion and analyzed by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE). The proteins were identified by their interaction with rabbit antibodies against rat serum proteins and anti-transferrin antibodies. SDS-PAGE analysis of the proteins prepared from ischemic tissue showed significant increase in the 66 and 80 kDa components; where a marked decrease in the 260 kDa protein occurred in the ischemic and para-ischemic tissues. The 66 kDa and 80 kDa proteins stained intensely with anti-serum protein antibodies, indicating that they are related to plasma components. Moreover, the 66 kDa band had the same electrophoretic mobility as bovine serum albumin used as a standard molecular size marker. The 80 kDa band was identified as transferrin by staining with the specific antibody. Transferrin was immunolocalized in the penumbra of cerebral cortex, hippocampal CA1 region and dentate gyrus of the ischemic cerebral hemisphere. The present results suggest that alteration in the brain content of 66 kDa (albumin), 80 kDa (transferrin) and 260 kDa (unidentified) proteins may reflect early effects of focal ischemia.     

Effects of cathepsins B and L inhibition on postischemic protein alterations in the brain

The effects of selective inhibition of cathepsins B and L on postischemic protein alterations in the brain were investigated in a rat model of middle cerebral artery occlusion (MCAO). Cathepsin B activity increased predominantly in the subcortical region of the ischemic hemisphere where the levels of collapsing mediator response protein 2, heat shock cognate 70 kDa protein, 60 kDa heat shock protein, protein disulfide isomerase A3 and albumin, were found to be significantly elevated. Postischemic treatment with Cbz-Phe-Ser(OBzl)-CHN₂, cysteine protease inhibitor 1 (CP-1), reduced infarct volume, neurological deficits and cathepsin B activity as well as the amount of heat shock proteins and albumin found in the brain. Our data strongly suggests that the decrease in heat shock protein levels and the significant reduction of serum albumin leakage into the brain following acute treatment with CP-1 is indicative of less secondary ischemic damage, which ultimately, is related to less cerebral tissue loss and improved neurological recovery of the animals.     

The Applicability of Amide Proton Transfer Imaging in the Nervous System: Focus on Hypoxic-Ischemic Encephalopathy in the Neonate

In recent years, magnetic resonance imaging (MRI) has become more widely used in neonatal hypoxic-ischemic encephalopathy (HIE), involving, for example, evaluation of cerebral edema, white matter fiber bundle tracking, cerebral perfusion status, and assessment of brain metabolites. MRI has many imaging modalities. However, its application for assessing changes in the internal environment at the tissue and cellular level after hypoxia–ischemia remains a challenge and is currently the focus of intense research. Based on the exchange between amide protons of proteins and polypeptides and free water protons, amide proton transfer (APT) imaging can display changes in pH and protein concentrations in vivo. This paper is a review of the principles of APT imaging, with a focus on the potential application of APT imaging for neonatal HIE.     

AQP-4在几种常见类型脑水肿中的表达及其作用

脑水肿是指各种原因导致的脑组织水含量增多,可导致脑容积增大、颅内压增高,脑水肿发病机制复杂,是多种颅脑疾病如脑静脉血栓形成、脑缺血、脑出血、脑组织创伤等的主要病理生理改变之一,其形成严重影响疾病预后,是颅脑疾病中致残、致死的主要原因。水通道蛋白(Aquaporin,缩写为AQP)是一个具有高度选择性通透水的膜通道蛋白家族,包括200多个家族成员,其蛋白质分子结构中有一狭窄的亲水性孔道,通过该孔道水分子从水位势能高的一侧迅速扩散到势能低的一侧,而其它的物质则不能通过;AQP-4是脑内含量最多的水通道蛋白,最近研究表明AQP-4参与多种颅脑疾病的脑水肿的形成及消退。本文就AQP-4在几种常见类型脑水肿中的表达及作用进行综述。     

Effect of dextran and dextran modifications on the thermal and proteolytic stability of conjugated bovine testis beta-galactosidase and human serum albumin

In order to study carbohydrate-induced protein stabilization bovine testis beta-galactosidase and human serum albumin were conjugated with dextran, partially acetylated dextran and partially methylated dextran. The conjugates and the free proteins were compared with respect to thermal stability at 50 degrees C and resistance to proteolytic digestion by subtilopeptidase A. Both beta-galactosidase and serum albumin were stabilized by conjugation with polysaccharide. However, higher stability was achieved by conjugating the proteins with the hydrophilic polysaccharides, dextran and acetylated dextran, than by conjugation with the hydrophobic polysaccharide, methylated dextran. The results are discussed in relation to possible explanations of carbohydrate-induced protein stabilization.     

Binding of Progesterone to Nerve Cell Membranes of Rat Brain Using Progesterone Conjugated to 125I-Bovine Serum Albumin as a Ligand

Radioiodinated bovine serum albumin conjugated to progesterone was used as a probe to examine binding parameters of steroids to membrane preparations from rat brain tissue. The binding of 11 alpha-hydroxyprogesterone-11-hemisuccinate-125I-bovine serum albumin conjugate reached saturation after 30 min of incubation at 5 degrees C. Several bovine serum albumin-conjugated steroids were then tested for competition displacement studies. Among these steroid conjugates, the bovine serum albumin conjugate at position 3 of progesterone had the highest affinity, with an estimated inhibition constant of 28.5 +/- 2.1 nM (n = 3), whereas bovine serum albumin itself and the 17 beta-estradiol 6-(O-carboxy-methyl)oxime-bovine serum albumin conjugate showed no specific displacement. In addition, the binding sites were localized in an axolemma-enriched fraction of rat brainstem. Specific binding was obtained in tissues from cerebral cortex, brainstem, cerebellum, corpus striatum, and hypothalamus, but little or no binding occurred in uterus, ovary, liver, and spleen. The present data indicate that progesterone-125I-bovine serum albumin conjugate can be used as a ligand to study progesterone-membrane receptor interactions.     

Hypoxia Dramatically Increases the Nonspecific Transport of Blood-Borne Proteins to the Brain

Abstract: Increased cerebrovascular permeability is an important factor for the development of cerebral edema. To investigate the effect of hypoxia on the transport of blood-borne proteins to the brain, we used a cell culture model of the blood-brain barrier (BBB) consisting of a coculture of brain capillary endothelial cells and astrocytes that closely mimics the in vivo situation. The permeability of albumin, a marker of the nonspecific transcellular route, is extremely low in this in vitro model of the BBB. After hypoxia, a huge increase in the permeability of albumin is detected. Despite the opening of the tight junctions already demonstrated after hypoxia, the increase in the permeability of albumin is mainly attributed to an increase of the nonspecific vesicular transport in the cell, attested by the temperature dependence of the phenomenon and the visualization of labeled apotransferrin in the cytoplasm. The increase of this pathway could participate in the development of brain edema during hypoxia.     

DISTRIBUTION OF SERUM PROTEINS AND BETA-TRACE PROTEIN WITHIN THE NERVOUS SYSTEM

Abstract— The concentration of beta-trace protein, a low molecular weight water-soluble protein, was significantly higher in cerebral and cerebellar white matter than in grey matter. A similar distribution was found for transferrin. The concentrations of gamma-trace protein and pre-albumin were almost constant in cerebral and cerebellar white and grey matter. A different distribution was shown for albumin, beta_lc/beta_lA globulins, and the immunoglobulins G, A and M, with the highest concentrations mostly encountered in the highly vascularized basal ganglia and grey matter, and the lowest concentrations in white matter. Thus, different parameters, hitherto unknown determine the distribution within the central nervous system of various proteins-those which originate from serum, and beta-trace protein which originates mainly from the central nervous system.
The amounts of the different proteins were higher in the choroid plexus than in brain tissue, with the exception of gamma-trace protein.
Foetal brains contained increasing concentrations of beta-trace protein and of transferrin with age.
Femoral nerve contained lower concentrations of beta-trace protein and gamma-trace protein, and higher concentrations of the other proteins, than the central nervous system.     

甲泼尼龙琥珀酸钠对外伤性脑水肿患者血清NO、ET、LPO和SOD水平的影响

目的:观察甲泼尼龙琥珀酸钠用于治疗外伤性脑水肿的疗效及对患者血清一氧化氮(NO)、内皮素(ET)、过氧化脂质(LPO)、超氧化物歧化酶(SOD)水平的影响。方法:选择我院2014年11月~2016年11月收治的104例外伤性脑水肿患者,按治疗方式分为对照组与研究组,每组52例。对照组采用常规治疗,研究组在对照组基础上联合甲泼尼龙琥珀酸钠治疗,两组均持续治疗7天。观察并比较两组临床疗效,治疗前后血清NO、ET、LPO、SOD水平、脑水肿体积、神经功能缺损程度评分(NIHSS)、格拉斯哥昏迷评分(GCS)的变化及并发症的发生情况。结果:治疗后,研究组的治疗总有效率高于对照组(P0.05);两组血清NO、SOD、GCS水平均较治疗前显著上升,且研究组明显高于对照组;两组血清ET、LPO、NIHSS、脑水肿体积均较治疗前明显降低,且研究组显著低于对照组,差异均有统计学意义(P0.05)。两组并发症的发生情况比较差异无统计学意义(P0.05)。结论:甲泼尼龙琥珀酸钠可显著提高外伤性脑水肿的临床疗效,可能与其能够有效调节血清NO、ET、LPO、SOD水平有关。     

中风胶囊对脑缺血/再灌注损伤模型鼠脑组织自噬相关蛋白表达的影响*

目的: 观察中风胶囊对脑缺血/再灌注损伤(CIRI)模型鼠脑组织自噬相关蛋白表达的影响,初步揭示其对神经元损伤保护的分子机制。方法: 采用改良线栓法构建大鼠脑缺血/再灌注损伤模型,随机将60只雄性SD大鼠分为假手术组、模型组、丁苯酞组(0.054 g/kg)、中风胶囊高剂量组(1.08 g/kg)、中风胶囊中剂量组(0.54 g/kg)、中风胶囊低剂量组(0.27 g/kg),每组10只。造模结束后灌胃给药10 d,每天1次,实验结束后处死各组大鼠,摘取脑组织。各组大鼠末次给药24 h后进行神经功能评分;HE染色法观察各组大鼠脑组织病理形态;ELISA法检测各组大鼠血清雌二醇(E2)和卵泡刺激素(FSH);RT-PCR法与Western blot法分别测定各组大鼠脑组织PI3K/Akt/Beclin1信号通路关键基因及蛋白的表达。结果: 与假手术组比较,模型组大鼠体重及脑组织中p-PI3K、p-Akt等蛋白表达均显著降低,脑指数、神经功能缺损评分及脑组织Beclin1、LC3基因和蛋白表达均显著升高(P＜0.05或P＜0.01),脑组织结构排列疏松,间质水肿,神经细胞呈三角形,核固缩深染。与模型组相比,中风胶囊高剂量组大鼠体重显著升高,神经功能缺损评分显著下降(P＜0.05),脑组织病理损伤较模型组明显改善;中风胶囊各剂量组的脑指数及脑组织Beclin1、LC3的基因和蛋白表达均显著降低,脑组织中p-PI3K、p-Akt等蛋白表达均显著升高(P＜0.05或P＜0.01)。结论: 中风胶囊通过调控PI3K/Akt/Beclin1信号通路中Beclin1和LC3的表达来抑制CIRI模型鼠的自噬反应,从而发挥保护其脑神经元损伤的作用。     

Brain Ion and Amino Acid Contents During Edema Development in Hepatic Encephalopathy

Abstract: Brain edema in hepatic encephalopathy has been associated with circulating ammonia that is metabolized to glutamine. We measured alterations in blood chemistry and brain regional specific gravity and ion and amino acid contents in models of simple hyperammonemia and liver failure induced by daily administrations of ammonium acetate (AAc) or thioacetamide (TAA), respectively. Serum and brain ammonia increased to similar levels (200 and 170% of control, respectively) in both experimental groups. Serum transaminase activities increased 10-fold in animals injected with TAA but were unchanged in animals given AAc injections. In both experimental groups glutamine was elevated in cerebral white matter, cerebral gray matter, and basal ganglia, whereas brain tissue specific gravity decreased in all brain regions, indicating edema formation. In the AAc group, we observed a decrease in glutamate and taurine contents concomitant with the development of brain edema. In these animals, cerebral gray matter specific gravity and taurine contents returned to control levels 24 h after the third AAc injection. TAA-injected animals demonstrated similar decreases in brain tissue specific gravity, whereas glutamine, glutamate, and taurine contents were all elevated. During hepatic encephalopathy, ammonia-induced changes in brain amino acid content may contribute to brain edema development.     

Crossed immunoelectrophoretic analysis of ARDS lavage proteins

Serum proteins in normal and ARDS bronchoalveolar lavages were analyzed using crossed immunoelectrophoresis. Normal lavages demonstrated relatively few proteins (albumin, alpha 1-antitrypsin, transferrin, and haptoglobin) in low concentrations. In contrast, substantial amounts of all identifiable serum proteins were detected in ARDS lavages. IgA was apparently locally produced. Two of the largest proteins, beta-lipoprotein (mol wt greater than 2 million) and IgM (mol wt approximately 900,000) were found to be complexed as evidenced by their coprecipitation in a single spike in ARDS lavage. Electrophoretic modifications of ARDS albumin and alpha 1-antitrypsin precipitation peaks and partial identity spurring of the alpha 1-lipoprotein peak with other precipitation loops indicated possible complex formation between these proteins and other possibly pathogenic lung fluid constituents. Similarly, modifications of orosomucoid and Gc-globulin peaks indicated possible molecular alterations resulting from interactions with other components. The relatively few protein modifications exhibited in ARDS lavages together with alpha 1-antitrypsin-protease complex formation confirm the relative absence of substantial proteolytic activity in ARDS edema fluids obtained within 12 hr of the onset of the syndrome demonstrated in previous studies.     

Pinocytosis and degradation of exogenous proteins by cystinotic fibroblasts

Lysosomes of cystinotic human fibroblasts contain over 100-times the normal concentration of cystine. The high cystine concentration (probably in the millimolar range) might be expected to inhibit intralysosomal protein breakdown. A comparison of pinocytosis and degradation of five ¹²⁵I-labelled proteins (bovine serum albumin, formaldehyde-denatured bovine serum albumin, bovine pancreatic ribonuclease A and porcine lactate dehydrogenase isoenzymes H4 and M4) by human fibroblasts has been made, using one cystinotic and two normal cell-lines. The proteins each entered fibroblasts by adsorptive pinocytosis and were then degraded within the lysosomes by enzymes susceptible to leupeptin, the thiol-proteinase inhibitor. Each protein was captured by the fibroblasts at a characteristic rate, which was not different in cystinotic cells. Normal and cystinotic fibroblasts did not differ in their proteolytic capacity, as measured in extracts of disrupted cells. In intact fibroblasts, four of the five proteins were rapidly and fully digested following pinocytosis, in both cystinotic and normal cells. However, with formaldehyde-denatured albumin, the most resistant to degradation of the proteins tested, or with some other proteins in the presence of leupeptin, when the proteolytic capacity of lysosomes is diminished, intralysosomal degradation of pinocytosed protein was incomplete. Moreover, under these conditions, cystinotic cells demonstrated a lower rate of protein digestion than normal cells. It is concluded that pinocytic capture, rather than intralysosomal proteolysis, is commonly the rate-limiting step in the overall process of uptake and degradation of proteins by fibroblasts, and that intralysosomal cystine inhibits digestion of pinocytosed protein only in circumstances when degradation becomes the rate-limiting step.     

Preservation of the Blood Brain Barrier and Cortical Neuronal Tissue by Liraglutide,a Long Acting Glucagon-Like-1 Analogue,after Experimental Traumatic Brain Injury

Cerebral edema is a common complication following moderate and severe traumatic brain injury (TBI), and a significant risk factor for development of neuronal death and deterioration of neurological outcome. To this date, medical approaches that effectively alleviate cerebral edema and neuronal death after TBI are not available. Glucagon-like peptide-1 (GLP-1) has anti-inflammatory properties on cerebral endothelium and exerts neuroprotective effects. Here, we investigated the effects of GLP-1 on secondary injury after moderate and severe TBI. Male Sprague Dawley rats were subjected either to TBI by Controlled Cortical Impact (CCI) or sham surgery. After surgery, vehicle or a GLP-1 analogue, Liraglutide, were administered subcutaneously twice daily for two days. Treatment with Liraglutide (200 μg/kg) significantly reduced cerebral edema in pericontusional regions and improved sensorimotor function 48 hours after CCI. The integrity of the blood-brain barrier was markedly preserved in Liraglutide treated animals, as determined by cerebral extravasation of Evans blue conjugated albumin. Furthermore, Liraglutide reduced cortical tissue loss, but did not affect tissue loss and delayed neuronal death in the thalamus on day 7 post injury. Together, our data suggest that the GLP-1 pathway might be a promising target in the therapy of cerebral edema and cortical neuronal injury after moderate and severe TBI.     

Biochemical and Autoradiographic Study of Cerebral Protein Synthesis with [18F]- and [14C]Fluorophenylalanine

Fluorine-18-labeled ortho or para isomers of L-fluorophenylalanine were used in double-label experiments together with L-[3H]phenylalanine for amino acid incorporation into cerebral proteins of Mongolian gerbil brain. It was demonstrated by qualitative regional comparison of the 18F and 3H autoradiographic images that L-p-[18F]fluorophenylalanine is incorporated into proteins and exhibits a regional cerebral protein synthesis pattern. To a minor extent, L-p-fluorophenyl[3-14C]alanine and L-o-[18F]fluorophenylalanine are hydroxylated in vivo to form labeled tyrosine or tyrosine analogues that are incorporated into cerebral proteins as well. The advantage and validity of the application of L-p-[18F]fluorophenylalanine with positron emission tomography for noninvasive studies of cerebral protein synthesis in humans are evaluated on the basis of an experimental animal approach.     

Autolytic degradation of chicken intestinal proteins

Data on the exhaustive degradation of chicken intestinal proteins by endogenous proteases, which could be utilized as a means to prepare protein hydrolysate, is reported in the present paper. Chicken intestine possesses proteolytic activities (cathepsin B, D, H, L, aminopeptidases and alkaline proteases) comparable to that in organ tissues like liver and spleen, which could degrade the tissue proteins extensively. The autolytic degradation was found to be optimum at pH 2.5 and 60 degrees C. Analysis by SDS-PAGE showed a time dependent degradation of proteins to low molecular weight (<10 kDa) products. Kinetic studies employing specific inhibitors indicated that the degradation (90-94%) of proteins at acidic pH is governed largely by pepstatin sensitive proteases. The acidic extract of the tissue was found to hydrolyse albumin, casein and soybean proteins efficiently. Results point to the possible application of tissue autolysis for obtaining protein hydrolysates from chicken intestine. Chicken intestine could also serve as a potential source of much needed proteolytic enzymes for food and pharmaceutical applications.     

Probenecid Protects Against Transient Focal Cerebral Ischemic Injury by Inhibiting HMGB1 Release and Attenuating AQP4 Expression in Mice

Stroke results in inflammation, brain edema, and neuronal death. However, effective neuroprotectants are not available. Recent studies have shown that high mobility group box-1 (HMGB1), a proinflammatory cytokine, contributes to ischemic brain injury. Aquaporin 4 (AQP4), a water channel protein, is considered to play a pivotal role in ischemia-induced brain edema. More recently, studies have shown that pannexin 1 channels are involved in cerebral ischemic injury and the cellular inflammatory response. Here, we examined whether the pannexin 1 channel inhibitor probenecid could reduce focal ischemic brain injury by inhibiting cerebral inflammation and edema. Transient focal ischemia was induced in C57BL/6J mice by middle cerebral artery occlusion (MCAO) for 1 h. Infarct volume, neurological score and cerebral water content were evaluated 48 h after MCAO. Immunostaining, western blot analysis and ELISA were used to assess the effects of probenecid on the cellular inflammatory response, HMGB1 release and AQP4 expression. Administration of probenecid reduced infarct size, decreased cerebral water content, inhibited neuronal death, and reduced inflammation in the brain 48 h after stroke. In addition, HMGB1 release from neurons was significantly diminished and serum HMGB1 levels were substantially reduced following probenecid treatment. Moreover, AQP4 protein expression was downregulated in the cortical penumbra following post-stroke treatment with probenecid. These results suggest that probenecid, a powerful pannexin 1 channel inhibitor, protects against ischemic brain injury by inhibiting cerebral inflammation and edema.     

BRAIN PROTEINS: QUALITATIVE AND QUANTITATIVE CHANGES, SYNTHESIS AND DEGRADATION DURING FETAL DEVELOPMENT OF THE RABBIT

The composition and metabolism of the proteins of the cerebral pallium of the rabbit during the final one-third of the gestational period were measured. During this period, the brain increased in size almost 10-fold and the migration of neuroblasts to form the cerebral cortex became complete. Concurrent with the marked structural changes, the solubility characteristics and electrophoretic distribution of various brain proteins showed little change. However, at the time of birth and in the adult, significant differences in gel electrophoresis patterns were apparent. The rate of synthesis of protein in brain slices from the fetus of 20 days gestation was 3-fold higher per mg of tissue than in the neonate and about 30-fold higher than in the adult. Activities of acidic and neutral proteases per unit weight were virtually the same and nearly constant throughout the late fetal period. However, during this stage, while rapid growth persists, the total protein synthetic activity of the pallium predominated over the total proteolytic activity, whereas sometime after birth the ratios of these activities reversed consequent to a shutdown of the synthetic process.