New Journal of Science最新文献

英文中文

Protein Kinase C (PKC) Isozymes and Cancer 蛋白激酶C同工酶与癌症

New Journal of Science

Pub Date : 2014-05-04 DOI: 10.1155/2014/231418

Jeong-Hun Kang

Protein kinase C (PKC) is a family of phospholipid-dependent serine/threonine kinases, which can be further classified into three PKC isozymes subfamilies: conventional or classic, novel or nonclassic, and atypical. PKC isozymes are known to be involved in cell proliferation, survival, invasion, migration, apoptosis, angiogenesis, and drug resistance. Because of their key roles in cell signaling, PKC isozymes also have the potential to be promising therapeutic targets for several diseases, such as cardiovascular diseases, immune and inflammatory diseases, neurological diseases, metabolic disorders, and multiple types of cancer. This review primarily focuses on the activation, mechanism, and function of PKC isozymes during cancer development and progression.

蛋白激酶C (PKC)是一个磷脂依赖性丝氨酸/苏氨酸激酶家族，可进一步分为三个PKC同工酶亚家族:传统或经典、新型或非经典和非典型。PKC同工酶参与细胞增殖、存活、侵袭、迁移、凋亡、血管生成和耐药。由于其在细胞信号传导中的关键作用，PKC同工酶也有潜力成为几种疾病的有希望的治疗靶点，如心血管疾病、免疫和炎症疾病、神经疾病、代谢紊乱和多种类型的癌症。本文主要综述了PKC同工酶在癌症发生和发展过程中的激活、机制和功能。

引用次数: 73

Melanins: Skin Pigments and Much More—Types, Structural Models, Biological Functions, and Formation Routes 黑色素:皮肤色素及更多——类型、结构模型、生物功能和形成途径

New Journal of Science

Pub Date : 2014-03-18 DOI: 10.1155/2014/498276

F. Solano

This review presents a general view of all types of melanin in all types of organisms. Melanin is frequently considered just an animal cutaneous pigment and is treated separately from similar fungal or bacterial pigments. Similarities concerning the phenol precursors and common patterns in the formation routes are discussed. All melanins are formed in a first enzymatically-controlled phase, generally a phenolase, and a second phase characterized by an uncontrolled polymerization of the oxidized intermediates. In that second phase, quinones derived from phenol oxidation play a crucial role. Concerning functions, all melanins show a common feature, a protective role, but they are not merely photoprotective pigments against UV sunlight. In pathogenic microorganisms, melanization becomes a virulence factor since melanin protects microbial cells from defense mechanisms in the infected host. In turn, some melanins are formed in tissues where sunlight radiation is not a potential threat. Then, their redox, metal chelating, or free radical scavenging properties are more important than light absorption capacity. These pigments sometimes behave as a double-edged sword, and inhibition of melanogenesis is desirable in different cells. Melanin biochemistry is an active field of research from dermatological, biomedical, cosmetical, and microbiological points of view, as well as fruit technology.

本文综述了所有类型生物中所有类型黑色素的一般观点。黑色素通常被认为只是一种动物皮肤色素，与类似的真菌或细菌色素分开处理。讨论了苯酚前体的相似之处和形成路线上的共同模式。所有黑色素都是在酶控制的第一个阶段形成的，通常是酚酶，第二阶段是氧化中间体的不受控制的聚合。在第二阶段，苯酚氧化产生的醌起着至关重要的作用。就功能而言，所有黑色素都表现出一个共同的特征，即保护作用，但它们不仅仅是抵御紫外线的光保护色素。在病原微生物中，黑色素化成为一种毒力因子，因为黑色素在被感染宿主中保护微生物细胞免受防御机制的侵害。反过来，一些黑色素是在没有阳光辐射潜在威胁的组织中形成的。因此，它们的氧化还原、金属螯合或自由基清除性能比光吸收能力更重要。这些色素有时就像一把双刃剑，在不同的细胞中抑制黑色素形成是可取的。从皮肤病学、生物医学、化妆品、微生物学以及水果技术的角度来看，黑色素生物化学是一个活跃的研究领域。

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引用次数: 397

Advances and Prospects in Cancer Immunotherapy 肿瘤免疫治疗的进展与展望

New Journal of Science

Pub Date : 2014-03-13 DOI: 10.1155/2014/745808

Juhua Zhou

Cancer immunotherapy is a promising and effective treatment modality for patients with cancers. Cytokine, anticytokine, and antibody therapies appear to be effective in treating various forms of cancer. The human papillomavirus vaccine is protective for cervical cancer, and this discovery has paved the way to the development of cancer vaccines for other forms of virus-associated cancers such as liver cancer and Merkel cell carcinoma. Clinical trials have demonstrated that adoptive cell therapy using tumor-infiltrating lymphocytes can induce tumor regression in approximately 75% of metastatic melanoma patients, suggesting the possibility of using similar technique to effectively treat breast, lung, and renal cancers in the near future. Besides, genetically engineered T cells transduced with genes encoding specific T cell receptors and chimeric antigen receptors have been shown effective in the treatment of cancer patients. These studies suggest that combination therapies are superior choices in cancer immunotherapy for patients.

肿瘤免疫治疗是一种很有前途和有效的癌症治疗方式。细胞因子、抗细胞因子和抗体疗法似乎对治疗各种形式的癌症有效。人乳头瘤病毒疫苗对宫颈癌有保护作用，这一发现为开发其他形式的病毒相关癌症(如肝癌和默克尔细胞癌)的癌症疫苗铺平了道路。临床试验表明，在大约75%的转移性黑色素瘤患者中，使用肿瘤浸润淋巴细胞的过继细胞治疗可以诱导肿瘤消退，这表明在不久的将来，使用类似技术有效治疗乳腺癌、肺癌和肾癌的可能性。此外，用编码特异性T细胞受体和嵌合抗原受体的基因转导的基因工程T细胞已被证明在治疗癌症患者中有效。这些研究表明，联合治疗是癌症患者免疫治疗的最佳选择。

引用次数: 30

Programmed Cell Death in Neurospora crassa 粗神经孢子虫的程序性细胞死亡

New Journal of Science

Pub Date : 2014-03-02 DOI: 10.1155/2014/479015

A. P. Gonçalves, A. Videira

Programmed cell death has been studied for decades in mammalian cells, but simpler organisms, including prokaryotes, plants, and fungi, also undergo regulated forms of cell death. We highlight the usefulness of the filamentous fungus Neurospora crassa as a model organism for the study of programmed cell death. In N. crassa, cell death can be triggered genetically due to hyphal fusion between individuals with different allelic specificities at het loci, in a process called “heterokaryon incompatibility.” Chemical induction of cell death can also be achieved upon exposure to death-inducing agents like staurosporine, phytosphingosine, or hydrogen peroxide. A summary of the recent advances made by our and other groups on the discovery of the mechanisms and mediators underlying the process of cell death in N. crassa is presented.

程序性细胞死亡已经在哺乳动物细胞中进行了几十年的研究，但更简单的生物，包括原核生物、植物和真菌，也经历了受调节的细胞死亡形式。我们强调了丝状真菌粗神经孢子菌作为研究程序性细胞死亡的模式生物的有用性。在N. crassa中，由于在两个位点上具有不同等位基因特异性的个体之间的菌丝融合，在一个称为“异核不相容”的过程中，细胞死亡可以从遗传上触发。化学诱导细胞死亡也可以通过暴露于死亡诱导剂如斯陶孢素、植物鞘氨醇或过氧化氢来实现。总结了我们和其他小组在发现N. crassa细胞死亡过程的机制和介质方面取得的最新进展。

引用次数: 10

Mammalian MYC Proteins and Cancer 哺乳动物MYC蛋白与癌症

New Journal of Science

Pub Date : 2014-02-02 DOI: 10.1155/2014/757534

W. Tansey

The MYC family of proteins is a group of basic-helix-loop-helix-leucine zipper transcription factors that feature prominently in cancer. Overexpression of MYC is observed in the vast majority of human malignancies and promotes an extraordinary set of changes that impact cell proliferation, growth, metabolism, DNA replication, cell cycle progression, cell adhesion, differentiation, and metastasis. The purpose of this review is to introduce the reader to the mammalian family of MYC proteins, highlight important functional properties that endow them with their potent oncogenic potential, describe their mechanisms of action and of deregulation in cancer cells, and discuss efforts to target the unique properties of MYC, and of MYC-driven tumors, to treat cancer.

MYC蛋白家族是一组碱基-螺旋-环-螺旋-亮氨酸拉链转录因子，在癌症中发挥着重要作用。在绝大多数人类恶性肿瘤中观察到MYC的过表达，并促进一系列影响细胞增殖、生长、代谢、DNA复制、细胞周期进展、细胞粘附、分化和转移的异常变化。这篇综述的目的是向读者介绍MYC蛋白的哺乳动物家族，强调赋予它们强大的致癌潜力的重要功能特性，描述它们在癌细胞中的作用机制和解除管制，并讨论针对MYC和MYC驱动的肿瘤的独特特性来治疗癌症的努力。

引用次数: 148

Biology of the KCNQ1 Potassium Channel KCNQ1钾通道的生物学研究

New Journal of Science

Pub Date : 2014-01-29 DOI: 10.1155/2014/237431

G. Abbott

Ion channels are essential for basic cellular function and for processes including sensory perception and intercellular communication in multicellular organisms. Voltage-gated potassium (Kv) channels facilitate dynamic cellular repolarization during an action potential, opening in response to membrane depolarization to facilitate K+ efflux. In both excitable and nonexcitable cells other, constitutively active, K+ channels provide a relatively constant repolarizing force to control membrane potential, ion homeostasis, and secretory processes. Of the forty known human Kv channel pore-forming α subunits that coassemble in various combinations to form the fundamental tetrameric channel pore and voltage sensor module, KCNQ1 is unique. KCNQ1 stands alone in having the capacity to form either channels that are voltage-dependent and require membrane depolarization for activation, or constitutively active channels. In mammals, KCNQ1 regulates processes including gastric acid secretion, thyroid hormone biosynthesis, salt and glucose homeostasis, and cell volume and in some species is required for rhythmic beating of the heart. In this review, the author discusses the unique functional properties, regulation, cell biology, diverse physiological roles, and involvement in human disease states of this chameleonic K+ channel.

在多细胞生物中，离子通道对基本细胞功能和包括感觉知觉和细胞间通讯在内的过程至关重要。电压门控钾(Kv)通道在动作电位期间促进动态细胞再极化，响应膜去极化打开以促进K+外排。在可兴奋性和不可兴奋性细胞中，K+通道提供相对恒定的复极化力，以控制膜电位、离子稳态和分泌过程。在已知的40个人类千伏通道成孔α亚基中，KCNQ1是独一无二的，这些亚基以不同的组合方式聚集在一起，形成基本的四聚体通道孔和电压传感器模块。KCNQ1具有形成电压依赖性通道和需要膜去极化激活的通道或组成活性通道的能力。在哺乳动物中，KCNQ1调节胃酸分泌、甲状腺激素生物合成、盐和葡萄糖稳态以及细胞体积等过程，在某些物种中，KCNQ1是有节奏的心脏跳动所必需的。本文就这一变色龙K+通道的独特功能特性、调控、细胞生物学、多种生理作用及其在人类疾病状态中的作用进行了综述。

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引用次数: 87

Vacuolar H+-ATPase: An Essential Multitasking Enzyme in Physiology and Pathophysiology 液泡H+- atp酶:生理和病理生理中必不可少的多任务酶

New Journal of Science

Pub Date : 2014-01-23 DOI: 10.1155/2014/675430

L. Holliday

Vacuolar H+-ATPases (V-ATPases) are large multisubunit proton pumps that are required for housekeeping acidification of membrane-bound compartments in eukaryotic cells. Mammalian V-ATPases are composed of 13 different subunits. Their housekeeping functions include acidifying endosomes, lysosomes, phagosomes, compartments for uncoupling receptors and ligands, autophagosomes, and elements of the Golgi apparatus. Specialized cells, including osteoclasts, intercalated cells in the kidney and pancreatic beta cells, contain both the housekeeping V-ATPases and an additional subset of V-ATPases, which plays a cell type specific role. The specialized V-ATPases are typically marked by the inclusion of cell type specific isoforms of one or more of the subunits. Three human diseases caused by mutations of isoforms of subunits have been identified. Cancer cells utilize V-ATPases in unusual ways; characterization of V-ATPases may lead to new therapeutic modalities for the treatment of cancer. Two accessory proteins to the V-ATPase have been identified that regulate the proton pump. One is the (pro)renin receptor and data is emerging that indicates that V-ATPase may be intimately linked to renin/angiotensin signaling both systemically and locally. In summary, V-ATPases play vital housekeeping roles in eukaryotic cells. Specialized versions of the pump are required by specific organ systems and are involved in diseases.

液泡H+- atp酶(v - atp酶)是大型多亚基质子泵，是真核细胞中膜结合室的内保酸化所必需的。哺乳动物的v - atp酶由13个不同的亚基组成。它们的管理功能包括酸化核内体、溶酶体、吞噬体、解偶联受体和配体的室室、自噬体和高尔基体的元件。特化细胞，包括破骨细胞、肾细胞和胰腺细胞中的嵌入细胞，既含有内务v - atp酶，也含有v - atp酶的一个额外子集，它起着细胞类型特异性的作用。特化的v - atp酶通常以包含一个或多个亚基的细胞类型特异性同工型为标志。已经确定了三种由亚基同种异构体突变引起的人类疾病。癌细胞以不同寻常的方式利用v - atp酶;v - atp酶的表征可能会导致新的治疗癌症的方式。已经确定了v - atp酶的两个辅助蛋白，它们调节质子泵。一种是肾素受体，新出现的数据表明，v - atp酶可能与全身和局部肾素/血管紧张素信号密切相关。总之，v - atp酶在真核细胞中起着至关重要的清洁作用。特定器官系统需要特殊版本的泵，并且与疾病有关。

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引用次数: 56

Tumour immunogenicity, antigen presentation and immunological barriers in cancer immunotherapy. 肿瘤免疫原性、抗原递呈和免疫屏障在肿瘤免疫治疗中的应用。

New Journal of Science

Pub Date : 2014-01-05 DOI: 10.1155/2014/734515

David Escors

Since the beginning of the 20^th century, scientists have tried to stimulate the anti-tumour activities of the immune system to fight against cancer. However, the scientific effort devoted on the development of cancer immunotherapy has not been translated into the expected clinical success. On the contrary, classical anti-neoplastic treatments such as surgery, radiotherapy and chemotherapy are the first line of treatment. Nevertheless, there is compelling evidence on the immunogenicity of cancer cells, and the capacity of the immune system to expand cancer-specific effector cytotoxic T cells. However, the effective activation of anti-cancer T cell responses strongly depends on efficient tumour antigen presentation from professional antigen presenting cells such as dendritic cells (DCs). Several strategies have been used to boost DC antigen presenting functions, but at the end cancer immunotherapy is not as effective as would be expected according to preclinical models. In this review we comment on these discrepancies, focusing our attention on the contribution of regulatory T cells and myeloid-derived suppressor cells to the lack of therapeutic success of DC-based cancer immunotherapy.

自20世纪初以来，科学家们一直试图通过刺激免疫系统的抗肿瘤活性来对抗癌症。然而，致力于癌症免疫疗法发展的科学努力尚未转化为预期的临床成功。相反，传统的抗肿瘤治疗，如手术、放疗和化疗是第一线的治疗方法。然而，有令人信服的证据表明癌细胞的免疫原性，以及免疫系统扩大癌症特异性效应细胞毒性T细胞的能力。然而，抗癌T细胞反应的有效激活强烈依赖于专业抗原呈递细胞(如树突状细胞(dc))的有效肿瘤抗原呈递。已经使用了几种策略来增强DC抗原提呈功能，但最终癌症免疫治疗并不像临床前模型所预期的那样有效。在这篇综述中，我们对这些差异进行了评论，并将我们的注意力集中在调节性T细胞和髓源性抑制细胞对基于dc的癌症免疫治疗缺乏治疗成功的贡献上。

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引用次数: 87

Between Amyloids and Aggregation Lies a Connection with Strength and Adhesion. 淀粉样蛋白与聚集体之间存在着强度和粘附性的联系。

New Journal of Science

Pub Date : 2014-01-01 DOI: 10.1155/2014/815102

Peter N Lipke, Caleen Ramsook, Melissa C Garcia-Sherman, Desmond N Jackson, Cho X J Chan, Michael Bois, Stephen A Klotz

We tell of a journey that led to discovery of amyloids formed by yeast cell adhesins and their importance in biofilms and host immunity. We begin with the identification of the adhesin functional amyloid-forming sequences that mediate fiber formation in vitro. Atomic force microscopy and confocal microscopy show 2-dimensional amyloid "nanodomains" on the surface of cells that are activated for adhesion. These nanodomains are arrays of adhesin molecules that bind multivalent ligands with high avidity. Nanodomains form when adhesin molecules are stretched in the AFM or under laminar flow. Treatment with antiamyloid perturbants or mutation of the amyloid sequence prevents adhesion nanodomain formation and activation. We are now discovering biological consequences. Adhesin nanodomains promote formation and maintenance of biofilms, which are microbial communities. Also, in abscesses within candidiasis patients, we find adhesin amyloids on the surface of the fungi. In both human infection and a Caenorhabditis elegans infection model, the presence of fungal surface amyloids elicits anti-inflammatory responses. Thus, this is a story of how fungal adhesins respond to extension forces through formation of cell surface amyloid nanodomains, with key consequences for biofilm formation and host responses.

我们讲述了一个发现酵母细胞黏附素形成的淀粉样蛋白的过程，以及它们在生物膜和宿主免疫中的重要性。我们首先鉴定在体外介导纤维形成的粘附素功能淀粉样蛋白形成序列。原子力显微镜和共聚焦显微镜显示，细胞表面的二维淀粉样蛋白“纳米结构域”被激活以粘附。这些纳米结构域是黏附素分子阵列，能够以高亲和力结合多价配体。当粘附分子在AFM中拉伸或层流下形成纳米结构域。用抗淀粉样蛋白干扰剂或淀粉样蛋白序列突变治疗可阻止粘附纳米结构域的形成和激活。我们现在正在发现生物后果。粘附素纳米结构域促进生物膜的形成和维持，生物膜是微生物群落。此外，在念珠菌病患者的脓肿中，我们发现真菌表面有黏附蛋白淀粉样蛋白。在人类感染和秀丽隐杆线虫感染模型中，真菌表面淀粉样蛋白的存在引发了抗炎反应。因此，这是一个真菌粘附素如何通过形成细胞表面淀粉样蛋白纳米结构域来响应延伸力的故事，对生物膜形成和宿主反应具有关键影响。

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