移动抑制因子和嗜铬粒蛋白A在脊髓损伤中的表达变化

为研究移动抑制因子和嗜铬粒蛋白A (chromogranin A, CgA)在脊髓损伤过程中的表达变化及其参与急性脊髓损伤修复的作用机制,建立了完全脊髓横断实验模型.采用双向凝胶电泳和基质辅助激光解吸电离串联质谱对脊髓损伤的动物组织样品进行分析,鉴定出20种差异表达蛋白质,其中有巨噬细胞游动抑制因子(macrophage migration inhibitory factor, MIF)和CgA等.通过RT-PCR和Western 印迹分析,移动抑制因子和CgA在损伤的脊髓组织中表达量发生变化,提示这两种蛋白可能均参与了脊髓损伤过程,但在脊髓损伤中的具体作用机制还有待于进一步的研究.     

小麦种子萌发时期胚差异蛋白表达分析

为了解小麦种子在萌发时期胚蛋白质表达情况,通过双向电泳技术,对"晋麦-47"小麦种子未萌发和萌发3 h、16 h和25 h的胚进行蛋白质分离。结果发现,"晋麦-47"小麦种子未萌发和萌发3 h、16 h和15 h的胚在PDQuest图像分析软件可识别的蛋白点分别有127、131、135和141个,其中表达量变化2.5倍以上的蛋白点有17个。选取表达量在2.5倍以上的9个差异蛋白点进行质谱分析,初步鉴定出4个蛋白质,分别是核苷二磷酸激酶Ⅰ、17.5 kD热休克蛋白、ATP合酶和LEA蛋白27。     

左侧大肠癌和右侧大肠癌蛋白质差异表达谱的建立及质谱分析

目的:初步探索左侧大肠癌和右侧大肠癌中蛋白质表达的差异,为左右侧大肠癌生物学特性上的差别提供功能基因组学上的依据。方法:以左右侧大肠癌组织为研究对象,提取组织总蛋白,依次进行二维凝胶电泳,凝胶图象分析,质谱及生物信息学分析。结果:成功建立了左侧大肠癌和右侧大肠癌的二维电泳图谱,进行质谱和生物信息学分析比较得到左侧大肠癌与右侧大肠癌的差异表达蛋白共有16个,其中左侧大肠癌中表达增加的蛋白有10个包括蛋白质二硫化异构酶A1,78 kDa葡萄糖调节蛋白,抑制素,热休克蛋白60,含硫氧还蛋白域的蛋白5,T-复合蛋白1ε亚单位,应急蛋白70,异柠檬酸脱氢酶,蛋白质二硫化异构酶A3,巨噬细胞加帽蛋白;左侧大肠癌表达降低的蛋白6个包括ATP合成酶β亚单位,延伸因子1-delta,热休克蛋白β1,载脂蛋白A-Ⅰ,转甲状腺素蛋白,热休克蛋白β6。结论:左侧大肠癌和右侧大肠癌中存在差异表达蛋白,这些差异表达蛋白可能是左右侧大肠癌生物学性质差异的分子遗传学基础。     

采用蛋白质组学技术筛选大肠癌转移相关蛋白

采用对同一亲本来源、不同转移潜能细胞株SW480和SW620的蛋白质表达谱进行双向凝胶电泳和质谱技术分析,并在蛋白质和mRNA水平进行验证,成功鉴定了10个大肠癌转移相关蛋白,其中SW620细胞株表达上调的蛋白质有磷酸甘油酸变位酶1,磷脂酰乙醇胺结合蛋白和高迁移率族蛋白B-1,而热休克蛋白27,膜联蛋白Ⅰ,甲硫腺苷磷酸化酶,切丝蛋白1和表皮型脂肪酸结合蛋白在SW620中表达下调.大多数差异蛋白质功能涉及肿瘤细胞生长、运动、粘附、凋亡等过程,研究结果为阐明大肠癌转移机制及寻找预测大肠癌转移的潜在标志物提供了理论依据.     

高效絮凝菌A9在不同碳源培养条件下差异表达蛋白鉴定及分析

研究了高效絮凝菌A9在普通培养基、葡萄糖培养基和甘露糖培养基的培养条件下蛋白质组表达的差异。从这3种不同培养基培养的菌体中提取蛋白,进行蛋白质双向电泳,胶图分析后选取差异蛋白进行质谱鉴定。胶图分析结果表明:絮凝菌A9在不同碳源培养条件下蛋白质表达有较大差异。通过质谱分析,共有54个蛋白得到成功鉴定,包括二氢硫辛酸脱氢酶、磷酸丙糖异构酶、果糖-1,6-二磷酸酶、甘油醛-3-磷酸脱氢酶、磷酸甘油酸激酶、顺乌头酸酶、磷酸酰基转移酶、肽基脯氨酸顺反异构酶、延伸因子G等。这些差异蛋白的功能主要与能量代谢、糖类合成和代谢、脂类运输和代谢、蛋白翻译后修饰以及核糖体结构和生成有关。本文从蛋白水平阐明了絮凝菌A9在不同碳源培养条件下部分蛋白表达差异,为优化菌株絮凝剂培养条件提供了依据。     

PDIA1 和EF1D 在左侧和右侧结肠癌差异表达的实验研究

目的:初步确定蛋白质二硫化异构酶A1和延伸因子1-delta为左侧和右侧结肠癌中差异表达蛋白,为左侧和右侧结肠癌在肿瘤生物学方面的差异提供分子遗传学依据。方法:收集人左侧结肠癌(LSCC)和右侧结肠癌(RSCC)组织标本,进行二维凝胶电泳、质谱分析和生物信息学分离和鉴定左右侧结肠癌中差异表达蛋白质,进一步应用RT-PCR、Western Blot和免疫组织化学技术检测蛋白质二硫化异构酶A1和延伸因子1-delta在左侧和右侧结肠癌中的表达状态。结果:筛选并成功鉴定出左侧和右侧结肠癌中16种差异表达蛋白质,与右侧结肠癌比较,10种蛋白在左侧结肠癌表达上调,6种蛋白在左侧结肠癌表达下调,其中蛋白质二硫化异构酶A1在左侧结肠癌中表达上调,延伸因子1-delta在左侧结肠癌中表达下调,并通过RT-PCR、Western Blot和免疫组化方法证实了在左侧和右侧结肠癌中该两种蛋白表达的差异,与蛋白质组学结果一致。结论:左侧结肠癌和右侧结肠癌的蛋白质组存在差异,其中蛋白质二硫化异构酶A1和延伸因子1-delta在mRNA和蛋白水平均存在差异,这些可能是左侧和右侧结肠癌生物学行为差异的原因。     

应用蛋白质组学技术筛选胃癌SGC-7901细胞中的let-7a功能相关蛋白

为探讨let-7a表达下调在胃癌发病中的机制,高通量地检测了与let-7a功能相关的蛋白质.首先采用基因克隆技术稳定过表达SGC-7901细胞系的let-7a基因,然后用蛋白质组学技术研究稳定过表达该基因对SGC-7901细胞蛋白质表达谱的影响.通过对SGC-7901/let-7a细胞的蛋白质表达谱改变的研究,并用基质辅助激光解吸电离飞行时间质谱(MALDI-TOF-MS)分析鉴定了10个差异表达蛋白质.这些差异表达蛋白质可能是let-7a功能相关蛋白质,其中抗氧化蛋白2、胰岛素样生长因子结合蛋白2、二硫化蛋白异构酶A2、四氢叶酸合成酶、细胞周期素依赖性激酶抑制蛋白1、Rho-GTPsae激活蛋白4表达上调,Skp2蛋白、血小板黏附蛋白CD41、纤维连接蛋白、Cks1蛋白表达下调.部分差异表达蛋白质如细胞周期素依赖性激酶抑制蛋白1、Skp2蛋白和纤维连接蛋白经蛋白质印迹分析进行了验证.在SGC-7901/let-7a中鉴定的10个差异表达蛋白质涉及到细胞周期的调控、分子基因表达调控、细胞黏附、细胞代谢等众多事件,它们可能作为let-7a功能相关蛋白质,为阐明let-7a表达下调在胃癌发病中的机制提供了重要线索.     

采用定量蛋白质组学技术筛选小鼠肝癌淋巴道转移相关蛋白

淋巴道转移是上皮来源恶性肿瘤转移的早期阶段,其发生机制不清,一直是肿瘤学研究面临的难题,为寻找淋巴道转移相关蛋白,以一对来源于同一亲本细胞,且淋巴道转移潜能显著不同的小鼠肝癌腹水型细胞株为研究对象,其中Hca-F为高淋巴道转移力细胞株,Hca-P为低淋巴道转移力细胞株,采用定量蛋白质组学技术——荧光差异双向凝胶电泳,建立了高低淋巴道转移力小鼠肝癌细胞荧光差异蛋白表达图谱,高通量筛选与肿瘤淋巴道转移相关的蛋白质.经DeCyde软件分析,共得到163个有统计学差异的蛋白质点,选择2倍以上的差异性蛋白质点23个,经质谱鉴定得到17个蛋白质,在Hca-F中高表达的蛋白质有7个:转羟乙醛酶、波形蛋白、肌酸激酶(脑)、膜联蛋白7、膜联蛋白5、烯酰辅酶A水合酶1(过氧化物酶体)、核内异质核糖核蛋白A2/B1异构体1.而在Hca-F中低表达的蛋白质有10个:真核翻译延长因子2、Ero1样蛋白、乙醛脱氢酶2(线粒体)、苹果酸盐脱氢酶2(NAD)、β-内酰胺酶2、谷胱甘肽S转移酶"1、泛素C末端水解酶同工酶L3、内质网蛋白29(前体)、溶血磷脂酶1、微管不稳定蛋白.这些差异性蛋白质的功能涉及到代谢、蛋白质分泌、蛋白质结合、核苷酸结合,钙离子结合、凋亡和调节生长等过程.对这些蛋白质功能的进一步验证,将有助于解析肿瘤淋巴道转移的分子机制.     

PDIA1和EF1D在左侧和右侧结肠癌差异表达的实验研究

目的：初步确定蛋白质二硫化异构酶A1和延伸因子1-delta为左侧和右侧结肠癌中差异表达蛋白,为左侧和右侧结肠癌在肿瘤生物学方面的差异提供分子遗传学依据。方法：收集人左侧结肠癌（LSCC）和右侧结肠癌（RSCC）组织标本,进行二维凝胶电泳、质谱分析和生物信息学分离和鉴定左右侧结肠癌中差异表达蛋白质,进一步应用RT—PCR、WesternBlot和免疫组织化学技术检测蛋白质二硫化畀构酶A1和延伸因子1-delta在左侧和右侧结肠癌中的表达状态。结果：筛选并成功鉴定出左侧和右侧结肠癌中16种差异表达蛋白质,与右侧结肠癌比较,lO种蛋白在左侧结肠癌表达上调,6种蛋白在左侧结肠癌表达下调,其中蛋白质二硫化异构酶A1在左侧结肠癌中表达上调,延伸因子1-delta在左侧结肠癌中表达下调,并通过RT-PCR、Western Blot和免疫组化方法证实了在左侧和右侧结肠癌中该两种蛋白表达的差异,与蛋白质组学结果一致。结论：左侧结肠癌和右侧结肠癌的蛋白质组存在差异,其中蛋白质二硫化异构酶A1和延伸因子1—delta在mRNA和蛋白水平均存在差异,这些可能是左侧和右侧结肠癌生物学行为差异的原因。     

肺癌转移相关蛋白的比较蛋白质组分析与鉴定

采用比较蛋白质组技术对肺巨细胞癌高、低转移株的蛋白质表达谱进行双向电泳分离和MALDI-TOF分析,并在蛋白质和mRNA水平进行进一步验证,成功鉴定了11个肺癌转移相关蛋白.其中,候选蛋白膜联蛋白1(ANX1)、细胞骨架蛋白(CK18)、Rho-GDP解离抑制剂1(GDIR)、原肌球蛋白3(TPMF)、蛋白谷氨酰胺γ-谷氨酰转移酶(TGLC)和白介素18(IL-18)在肺巨细胞癌高转移株显著高表达,而候选蛋白核氯离子通道蛋白1(CLI1)、蛋白质二硫键异构酶(ER60)、肌酸激酶、硫氧还蛋白过氧化物酶1(PDX1)和热休克蛋白60(CH60)在肺巨细胞癌高转移株显著低表达.大多数的候选蛋白可通过调控肿瘤细胞的生长、迁移、粘附、凋亡和肿瘤免疫等环节来影响肿瘤细胞的侵袭和转移能力.迄今为止,还未见候选蛋白CLI1和IL-18与肺癌转移相关的报道,提示这两种蛋白质可能为新的肺癌转移相关蛋白.     

Proteomic Characterization of Annexin l (ANX1) and Heat Shock Protein 27 (HSP27) as Biomarkers for Invasive Hepatocellular Carcinoma Cells

To search for reliable biomarkers and drug targets for management of hepatocellular carcinoma (HCC), we performed a global proteomic analysis of a pair of HCC cell lines with distinct differentiation statuses using 2-DE coupled with MALDI-TOF MS. In total, 106 and 55 proteins were successfully identified from the total cell lysate and the cytosolic, nuclear and membrane fractions in well-differentiated (HepG2) and poorly differentiated (SK-Hep–1) HCC clonal variants, respectively. Among these proteins, nine spots corresponding to proteins differentially expressed between HCC cell types were selected and confirmed by immunofluorescence staining and western blotting. Notably, Annexin 1 (ANX1), ANX–2, vimentin and stress-associated proteins, such as GRP78, HSP75, HSC–70, protein disulfide isomerase (PDI), and heat shock protein–27 (HSP27), were exclusively up-regulated in SK-Hep–1 cells. Elevated levels of ANX–4 and antioxidant/metabolic enzymes, such as MnSOD, peroxiredoxin, NADP-dependent isocitrate dehydrogenase, α-enolase and UDP-glucose dehydrogenase, were observed in HepG2 cells. We functionally demonstrated that ANX1 and HSP27 were abundantly overexpressed only in highly invasive types of HCC cells, such as Mahlavu and SK-Hep–1. Knockdown of ANX1 or HSP27 in HCC cells resulted in a severe reduction in cell migration. The in-vitro observations of ANX1 and HSP27 expressions in HCC sample was demonstrated by immunohistochemical stains performed on HCC tissue microarrays. Poorly differentiated HCC tended to have stronger ANX1 and HSP27 expressions than well-differentiated or moderately differentiated HCC. Collectively, our findings suggest that ANX1 and HSP27 are two novel biomarkers for predicting invasive HCC phenotypes and could serve as potential treatment targets.     

应用cDNA微阵列技术筛选大鼠脊髓损伤修复相关基因

脊髓损伤是一类常见的、高致残率的中枢神经系统疾病,由于多种复杂因素影响其损伤后的修复过程,损伤脊髓的再生能力非常有限。本研究采用cDNA微阵列技术筛选大鼠脊髓损伤后出现的差异表达基因。实验组动物在T8-T9进行脊髓全横断手术,对照组动物只打开椎板;4．5d后取脊髓进行RNA提取并在反转录过程中进行Cy3／Cy5标记,然后与预制的、带有4041条特异性探针的芯片进行杂交。Cy5／Cy3信号比值≥2．0视为脊髓损伤后出现差异表达的基因。通过筛选,我们得到了65个上调表达基因（21个已知基因,30个已知EST和14个未知基因）和79个下调基因（20个已知基因,42个已知EST和17个未知基因）。进一步通过半定量RT-PCR对其中的5个上调已知基因（Timpl,Tagln,Vim,Fc gamma receptor,Ctss）和三个下调已知基因（stearyl-CoA desaturase,F2,Ensa）的表达情况进行了验证,结果显示与芯片结果一致。这些基因可能在脊髓损伤后的修复过程中起一定的作用,对其深入研究将有助于揭示脊髓损伤修复的分子机制。     

Déjà vu in proteomics. A hit parade of repeatedly identified differentially expressed proteins

After reading many 2-DE-based articles featuring lists of the differentially expressed proteins, one starts experiencing a disturbing déjà vu. The same proteins seem to predominate regardless of the experiment, tissue or species. To quantify the occurrence of individual differentially expressed proteins in 2-DE experiment reports, we compiled the identities of differentially expressed proteins identified in human, mouse, and rat tissues published in three recent volumes of Proteomics and calculated the appearance of the most predominant proteins in the dataset. The most frequently identified protein is a highly abundant glycolytic enzyme enolase 1, differentially expressed in nearly every third experiment on both human and rodent tissues. Heat-shock protein 27 (HSP27) and heat-shock protein 60 (HSP60) were differentially expressed in about 30 percent of human and rodent samples, respectively. Considering protein families as units, keratins and peroxiredoxins are the most frequently identified molecules, with at least one member of the group being differentially expressed in about 40 percent of all experiments. We suggest that the frequent identification of these proteins must be considered in the interpretation of any 2-DE studies. We consider if these commonly observed changes represent common cellular stress responses or are a reflection of the technical limitations of 2-DE.     

Proteome of synaptosome‐associated proteins in spinal cord dorsal horn after peripheral nerve injury

Peripheral nerve injury may lead to neuroadaptive changes of cellular signals in spinal cord that are thought to contribute to central mechanisms underlying neuropathic pain. Here we used a 2‐DE‐based proteomic technique to determine the global expression changes of synaptosome‐associated proteins in spinal cord dorsal horn after unilateral fifth spinal nerve injury (SNI). The fifth lumbar dorsal horns ipsilateral to SNI or sham surgery were harvested on day 14 post‐surgery, and the total soluble and synaptosomal fractions were isolated. The proteins derived from the synaptosomal fraction were resolved by 2‐DE. We identified 27 proteins that displayed different expression levels after SNI, including proteins involved in transmission and modulation of noxious information, cellular metabolism, membrane receptor trafficking, oxidative stress, apoptosis, and degeneration. Six of the 27 proteins were chosen randomly and further validated in the synaptosomal fraction by Western blot analysis. Unexpectedly, Western blot analysis showed that only one protein in the total soluble fraction exhibited a significant expression change after SNI. The data indicate that peripheral nerve injury changes not only protein expression but also protein subcellular distribution in dorsal horn cells. These changes might participate in the central mechanism that underlies the maintenance of neuropathic pain.     

Proteomic analysis of metabolic, cytoskeletal and stress response proteins in human heart failure

Human heart failure is a complex syndrome and a primary cause of morbidity and mortality in the world. However, the molecular pathways involved in the remodelling process are poorly understood. In this study, we performed exhaustive global proteomic surveys of cardiac ventricle isolated from failing and non-failing human hearts, and determined the regulatory pathway to uncover the mechanism underlying heart failure. Two-dimensional gel electrophoresis (2-DE) coupled with tandem mass spectrometry was used to identify differentially expressed proteins in specimens from failing (n = 9) and non-failing (n = 6) human hearts. A total of 25 proteins with at least 1.5-fold change in the failing heart were identified; 15 proteins were up-regulated and 10 proteins were down-regulated. The altered proteins belong to three broad functional categories: (i) metabolic [e.g. NADH dehydrogenase (ubiquinone), dihydrolipoamide dehydrogenase, and the cytochrome c oxidase subunit]; (ii) cytoskeletal (e.g. myosin light chain proteins, troponin I type 3 and transthyretin) and (iii) stress response (e.g. αB-crystallin, HSP27 and HSP20). The marked differences in the expression of selected proteins, including HSP27 and HSP20, were further confirmed by Western blot. Thus, we carried out full-scale screening of the protein changes in human heart failure and profiled proteins that may be critical in cardiac dysfunction for future mapping.     

Identification of breast cancer metastasis-associated proteins in an isogenic tumor metastasis model using two-dimensional gel electrophoresis and liquid chromatography-ion trap-mass spectrometry

To better understand the molecular mechanisms underlying breast cancer metastasis and search for potential markers for metastatic progression, we have developed a highly metastatic variant of human MDA-MB-435 breast cancer cell line through in vivo stepwise selection of pulmonary metastatic cells caused by parental MDA-MB-435 cells in the athymic mice. Comparative proteomic analysis using 2-DE and LC-IT-MS revealed that 102 protein spots were reproducibly altered more than three-fold between the selected variant and its parental counterpart. Eleven differentially expressed protein spots were identified with high confidence using SEQUEST with uninterpreted tandem mass raw data. Cathepsin D precursor, peroxiredoxin 6 (PDX6), heat shock protein 27 (HSP27), HSP60, tropomyosin 1 (TPM1), TPM2, TPM3, TPM4, 14-3-3 protein epsilon, and tumor protein D54 were up-regulated in the highly metastatic variant, whereas alpha B-crystalline (CRAB) was only detected in its parental counterpart. Differential expression was confirmed for four proteins including PDX6, CRAB, TPM4, and HSP60 by real-time quantitative PCR and Western blotting analysis in our model. Immunohistochemical analysis in 80 breast cancer donors demonstrated a significant association of TPM4 (p = 0.002), HSP60 (p = 0.001), PDX6 (p = 0.002) but not CRAB (p = 0.113) staining with the presence of lymph node metastasis. In addition, TPM4 staining was also associated with clinical stage (p = 0.000), but no significant association was found between TPM4, PDX6, CRAB, and HSP60 expression and tumor size, hormone receptor, and HER-2 status (p > 0.05). The functional implication of these identified proteins was also discussed. These proteomic data are valuable and informative for understanding breast cancer metastasis and searching for potential markers for metastatic progression.     

Proteomic analysis of Tiam1-mediated metastasis in colorectal cancer

Tiam1 (T lymphoma invasion and metastasis 1), a guanine nucleotide exchange factor that activates Rac, was recently identified as a novel colorectal cancer metastasis-related gene. To better understand the mechanism underlying Tiam1-mediated metastasis, we applied two-dimensional polyacrylamide gel electrophoresis (2-DE) and matrix-assisted laser desorption ionization time-of-flight mass spectrometry (MALDI-TOF MS) analysis to identify differentially expressed proteins between Tiam1 transfected and mock transfected colorectal cancer HT29 cells. Eleven differentially expressed proteins were identified and further validated by Western blot and/or real-time PCR. The results revealed that Tiam1 transfection in colorectal cancer cells could upregulate the expression of Fascin-1, heat shock protein 27 (HSP27), high-mobility group box 1 (HMGB1), glutathione S-transferase omega 1 (GSTO1) and downregulate the expression of annexin IV. These differentially expressed proteins may be directly or indirectly regulated by Tiam1 and be helpful in studying mechanisms that lead to the function of Tiam1. These results give some clues to elucidate the mechanism of Tiam1-mediated metastasis for colorectal cancer.     

Mutant Cu/Zn-superoxide dismutase proteins have altered solubility and interact with heat shock/stress proteins in models of amyotrophic lateral sclerosis

Mutations in the Cu/Zn-superoxide dismutase (SOD-1) gene are responsible for a familial form of amyotrophic lateral sclerosis. In humans and experimental models, death of motor neurons is preceded by formation of cytoplasmic aggregates containing mutant SOD-1 protein. In our previous studies, heat shock protein 70 (HSP70) prolonged viability of cultured motor neurons expressing mutant human SOD-1 and reduced formation of aggregates. In this paper, we report that mutant SOD-1 proteins have altered solubility in cells relative to wild-type SOD-1 and can form a direct association with HSP70 and other stress proteins. Whereas wild-type human and endogenous mouse SOD-1 were detergent-soluble, a portion of mutant SOD-1 was detergent-insoluble in protein extracts of NIH3T3 transfected with SOD-1 gene constructs, spinal cord cultures established from G93A SOD-1 transgenic mouse embryos, and lumbar spinal cord from adult G93A transgenic mice. A direct association of HSP70, HSP40, and alphaB-crystallin with mutant SOD-1 (G93A or G41S), but not wild-type or endogenous mouse SOD-1, was demonstrated by coimmunoprecipitation. Mutant SOD-1.HSP70 complexes were predominantly in the detergent-insoluble fraction. However, only a small percentage of total cellular mutant SOD-1 was detergent-insoluble, suggesting that mutation-induced alteration of protein conformation may not in itself be sufficient for direct interaction with heat shock proteins.     

Proteomic analysis of injured spinal cord tissue proteins using 2-DE and MALDI-TOF MS

Spinal cord injury (SCI) induces a progressive pathophysiology affecting cell survival and neurological integrity via complex and evolving molecular cascades whose interrelationships are not fully understood. Acute injury to the spinal cord undergoes sequential pathological change including hemorrhage, edema, axonal and neuronal necrosis, and demyelination. In the present study, we aimed to establish the proteomic profiles and characterization of the total protein expressed in traumatic injured spinal cord tissue by using 2-DE and matrix assisted laser desorption/ionization-TOF MS (MALDI-TOF MS). We performed proteomic analysis using 2-DE and MS to describe total proteins and differential proteins expression between normal and traumatic injured spinal cord tissues. The study discovered 947 total proteins and analyzed 219 and 270 proteins from normal and injured tissue, respectively. After 24 h of traumatic damage induction, the injured spinal cord tissue up-regulated over 39 proteins including neurofilament light chain, annexin 5, heat shock protein, tubulin beta, peripherin, glial fibrillary acidic protein delta, peroxiredoxin 2, and apolipoprotein A. Twenty-one proteins showed reduction. The majority of the modulated proteins belonged to the 13 functional categories. Proteins that were identified with neural functional category in injured tissue were considered most likely to be involved in wound healing response coupled with neurogenesis and gliogenesis.     

Proteomic analysis of multidrug‐resistance mechanisms in adriamycin‐resistant variants of DLKP,a squamous lung cancer cell line

Alterations in protein expression associated with adriamycin resistance in a panel of variants derived from the poorly differentiated squamous cell lung carcinoma DLKP were investigated using 2‐D DIGE. Of the 80 proteins identified as being differentially expressed, 32 correlated to adriamycin resistance. Twenty‐four proteins showed positive correlations with drug resistance, 11 correlated directly with increase in the resistance (including NDPK, RPA2, CCT2, HSP70 and Annexin A1) while 13 proteins (including HNRP K and H1, aldehyde dehydrogenase (ALDH), stomatin and CCT3) increased to a similar level in all drug‐resistant variants. Fewer proteins showed an inverse correlation with resistance; two (protein disulphide isomerase (PDI) and HSP70 variant 1) displayed a similar decrease in all variants and six (including prohibitin (PHB) and EIF5A) correlated inversely with resistance. Three proteins (EEF1D, Actin G1 and Annexin 1) correlated with the invasive status of these variants. Some expected targets of adriamycin action showed correlation with resistance including RPA2 (critical for DNA damage repair), while others proteins involved in protection from ROS production (such as GST, peroxiredoxins and thioredoxins) did not. The proteomic analysis revealed a large number of changes in protein expression that may contribute to a more apoptosis‐resistant state. Many of these changes could provide novel targets for overcoming resistance.