2012 Vol. 3(6)

Fine-tune of intrinsic ERK activity by extrinsic BMP signaling in mouse embryonic stem cells
Zhongwei Li, Ye-Guang Chen
2012, 3(6): 401-404. doi: 10.1007/s13238-012-2925-5
Continued surprises in the cytochrome c biogenesis story
Elizabeth B. Sawyer, Paul D. Barker
2012, 3(6): 405-409. doi: 10.1007/s13238-012-2912-x
Cytochromes c covalently bind their heme prosthetic groups through thioether bonds between the vinyl groups of the heme and the thiols of a CXXCH motif within the protein. In Gram-negative bacteria, this process is catalyzed by the Ccm (cytochrome c maturation) proteins, also called System I. The Ccm proteins are found in the bacterial inner membrane, but some (CcmE, CcmG, CcmH, and CcmI) also have soluble functional domains on the periplasmic face of the membrane. Elucidation of the mechanisms involved in the transport and relay of heme and the apocytochrome from the bacterial cytosol into the periplasm, and their subsequent reaction, has proved challenging due to the fact that most of the proteins involved are membrane-associated, but recent progress in understanding some key components has thrown up some surprises. In this Review, we discuss advances in our understanding of this process arising from a substrate's point of view and from recent structural information about individual components.
Mitochondrial network in the heart
Qian Li, Lu-Yu Zhou, Gui-Feng Gao, Jian-Qin Jiao, Pei-Feng Li
2012, 3(6): 410-418. doi: 10.1007/s13238-012-2921-9
Mitochondria are subcellular organelles that provide energy for the cell. They form a dynamic tubular network and play an important role in maintaining the cell function and integrity. Heart is a powerful organ that supplies the motivation for circulation, thereby requiring large amounts of energy. Thus, the healthiness of cardiomyocytes and mitochondria is necessary for the normal cardiac function. Mitochondria not only lie in the center of the cell apoptotic pathway, but also are the major source of reactive oxygen species (ROS) generation. Mitochondrial morphological change includes fission and fusion that are regulated by a large number of proteins. In this review we discuss the regulators of mitochondrial fission/fusion and their association with cell apoptosis, autophagy and ROS production in the heart.
Minor fibrillar collagens, variable regions alternative splicing, intrinsic disorder, and tyrosine sulfation
Ming Fang, Reed Jacob, Owen McDougal, Julia Thom Oxford
2012, 3(6): 419-433. doi: 10.1007/s13238-012-2917-5
Minor fibrillar collagen types V and XI, are those less abundant than the fibrillar collagen types I, Ⅱ and Ⅲ. The alpha chains share a high degree of similarity with respect to protein sequence in all domains except the variable region. Genomic variation and, in some cases, extensive alternative splicing contribute to the unique sequence characteristics of the variable region. While unique expression patterns in tissues exist, the functions and biological relevance of the variable regions have not been elucidated. In this review, we summarize the existing knowledge about expression patterns and biological functions of the collagen types V and XI alpha chains. Analysis of biochemical similarities among the peptides encoded by each exon of the variable region suggests the potential for a shared function. The alternative splicing, conservation of biochemical characteristics in light of low sequence conservation, and evidence for intrinsic disorder, suggest modulation of binding events between the surface of collagen fibrils and surrounding extracellular molecules as a shared function.
Crystal structure of kindlin-2 PH domain reveals a conformational transition for its membrane anchoring and regulation of integrin activation
Yan Liu, Yun Zhu, Sheng Ye, Rongguang Zhang
2012, 3(6): 434-440. doi: 10.1007/s13238-012-2046-1
Kindlin-2 belongs to a subfamily of FERM domain containing proteins, which plays key roles in activating integrin transmembrane receptors and mediating cell adhesion. Compared to conventional FERM domains, kindlin-2 FERM contains an inserted pleckstrin homology (PH) domain that specifically binds to phosphatidylinositol (3,4,5) trisphosphate (PIP3) and regulates the kindlin-2 function. We have determined the crystal structure of kindlin-2 PH domain at 1.9 Å resolution, which reveals a conserved PH domain fold with a highly charged and open binding pocket for PIP3 head group. Structural comparison with a previously reported solution structure of kindlin-2 PH domain bound to PIP3 head group reveals that upon PIP3 insertion, there is a significant conformational change of both the highly positively charged loop at the entry of the PIP3 binding pocket and the entire β barrel of the PH domain. We propose that such "induced-fit" type change is crucial for the tight binding of PIP3 to anchor kindlin-2 onto the membrane surface, thereby promoting its binding to integrins. Our results provide important structural insight into kindlin-2-mediated membrane anchoring and integrin activation.
The tumor immunosuppressive microenvironment impairs the therapy of anti-HER2/neu antibody
Meng Xu, Xuexiang Du, Mingyue Liu, Sirui Li, Xiaozhu Li, Yang-Xin Fu, Shengdian Wang
2012, 3(6): 441-449. doi: 10.1007/s13238-012-2044-3
It has been well established that immune surveillance plays critical roles in preventing the occurrence and progression of tumor. More and more evidence in recent years showed the host anti-tumor immune responses also play important roles in the chemotherapy and radiotherapy of cancers. Our previous study found that tumor-targeting therapy of anti-HER2/neu mAb is mediated by CD8+ T cell responses. However, we found here that enhancement of CD8+ T cell responses by combination therapy with IL-15R/IL-15 fusion protein or anti-CD40, which are strong stimultors for T cell responses, failed to promote the tumor therapeutic effects of anti-HER2/neu mAb. Analysis of tumor microenviornment showed that tumor tissues were heavily infiltrated with the immunosuppressive macrophages and most tumor infiltrating T cells, especially CD8+ T cells, expressed high level of inhibitory co-signaling receptor PD-1. These data suggest that tumor microenvironment is dominated by the immunosuppressive strategies, which thwart anti-tumor immune responses. Therefore, the successful tumor therapy should be the removal of inhibitory signals in the tumor microenvironment in combination with other therapeutic strategies.
Research articles
The enzymatic activity of Arabidopsis protein arginine methyltransferase 10 is essential for flowering time regulation
Lifang Niu, Falong Lu, Taolan Zhao, Chunyan Liu, Xiaofeng Cao
2012, 3(6): 450-459. doi: 10.1007/s13238-012-2935-3
Arabidopsis AtPRMT10 is a plant-specific type I protein arginine methyltransferase that can asymmetrically dimethylate arginine 3 of histone H4 with auto-methylation activity. Mutations of AtPRMT10 derepress FLOWERING LOCUS C (FLC) expression resulting in a late-flowering phenotype. Here, to further investigate the biochemical characteristics of AtPRMT10, we analyzed a series of mutated forms of the AtPRMT10 protein. We demonstrate that the conserved "VLD" residues and "double-E loop" are essential for enzymatic activity of AtPRMT10. In addition, we show that Arg54 and Cys259 of AtPRMT10, two residues unreported in animals, are also important for its enzymatic activity. We find that Arg13 of AtPRMT10 is the auto-methylation site. However, substitution of Arg13 to Lys13 does not affect its enzymatic activity. In vivo complementation assays reveal that plants expressing AtPRMT10 with VLD-AAA, E143Q or E152Q mutations retain high levels of FLC expression and fail to rescue the late-flowering phenotype of atprmt10 plants. Taken together, we conclude that the methyltransferase activity of AtPRMT10 is essential for repressing FLC expression and promoting flowering in Arabidopsis.
Affinity maturation of anti-TNF-alpha scFv with somatic hypermutation in non-B cells
Shaopeng Chen, Junkang Qiu, Chuan Chen, Chunchun Liu, Yuheng Liu, Lili An, Junying Jia, Jie Tang, Lijun Wu, Haiying Hang
2012, 3(6): 460-469. doi: 10.1007/s13238-012-2024-7
Activation-induced cytidine deaminase (AID) is required for the generation of antibody diversity through initiating both somatic hypermutation (SHM) and class switch recombination. A few research groups have successfully used the feature of AID for generating mutant libraries in directed evolution of target proteins in B cells in vitro. B cells, cultured in suspension, are not convenient for transfection and cloning. In this study, we established an AID-based mutant accumulation and sorting system in adherent human cells. Mouse AID gene was first transfected into the human non-small cell lung carcinoma H1299 cells, and a stable cell clone (H1299-AID) was selected. Afterwards, anti-hTNF-α scFv (ATscFv) was transfected into H1299-AID cells and ATscFv was displayed on the surface of H1299-AID cells. By 4-round amplification/flow cytometric sorting for cells with the highest affinities to hTNF-alpha, two ATscFv mutant gene clones were isolated. Compared with the wild type ATscFv, the two mutants were much more efficient in neutralizing cytotoxicity of hTNF-alpha. The results indicate that directed evolution by somatic hypermutation can be carried out in adherent non-B cells, which makes directed evolution in mammalian cells easier and more efficient.
Generation of Calhm1 knockout mouse and characterization of calhm1 gene expression
Junbing Wu, Shengyi Peng, Rong Wu, Yumin Hao, Guangju Ji, Zengqiang Yuan
2012, 3(6): 470-480. doi: 10.1007/s13238-012-2932-6
Alzheimer's disease (AD) is the most common neurodegenerative disease among elderly people worldwide. Several genes have been validated to be associated with AD, and calcium homeostasis modulator 1 (Calhm1) is the latest suspected one. To investigate the biological and pathological function of Calhm1 systematically, we generated a Calhm1 conventional knockout mouse. However, both the male and female of elderly Calhm1 knockout (KO) mice showed similar ability to their wild type littermates in spatial learning and memory retrieving. Surprisingly, we found that Calhm1 mRNA could not be detected in mouse brains at different ages, although it is expressed in the human brain tissues. We further found that CpG islands (CGIs) of both mouse and human Calhm1 were hypermethylated, whereas CGI of mouse Calhm2 was hypomethylated. In addition, transcriptional active marker H3K4Di occupied on promoters of human Calhm1 and mouse Calhm2 at a considerable level in brain tissues, while the occupancy of H3K4Di on promoter of mouse Calhm1 was rare. In sum, we found that mouse Calhm1 was of rare abundance in brain tissues. So it might not be suitable to utilize the knockout murine model to explore biological function of Calhm1 in the pathogenesis of AD.

Current Issue

March, 2019

Volume 10, Issue 3

Pages 157-233

About the cover

Metastasis is the leading cause of human cancer deaths.Unfortunately, no approved drugs are available for antimetastatic treatment. In this study, high-throughputsequencing-based high-throughput screening (HTS2) anda breast cancer lung metastasis (BCLM)-associated genesignature were combined to discover anti-metastatic drugs.After screening of thousands of compounds, Shao et al.identifed Ponatinib as a BCLM inhibitor. Ponatinib signifcantlyinhibited the migration and mammosphere formation of breastcancer cells in vitro and blocked BCLM in multiple mousemodels. This study may facilitate the therapeutic treatment ofBCLM as well as other metastases.

Institute of Biophysics, Chinese Academy of Sciences, 15 Datun Road, Chaoyang Beijing 100101, China

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