Biological evaluation of penetration domain and killing domain peptides

BACKGROUND: Cancer gene therapy must impact the majority of cells to be effective. Current gene delivery systems are unable to achieve sufficient transfer efficiency to the tumor cells. Cell killing can be dramatically increased through a bystander effect. Modeling the gene product with synthetic peptides can identify key elements for creating cell killing through a bystander effect. METHODS: Fluorescent labeled peptides were used for uptake kinetic studies and determination of intracellular localization in human glioblastoma cell lines, rat glioma cells lines and pressurized rat cerebral arteries. The degree of cell killing was assayed using propidium iodide coupled with fluorescence-activated cell sorting (FACS) analysis. RESULTS: Peptides derived from HIV Tat and Drosophila antennapedia homeodomain were taken up by all tumor and primary cells. Attachment of an Mdm-2-binding domain derived from P14(ARF) resulted in cell killing and was independent of domain orientation. Uptake kinetics showed rapid uptake for both tumor and primary cells equilibrating with the external media within 10 min. Intraluminal or extraluminal administration of peptides into pressurized cerebral arteries showed a lack of extravasation across the subbasement lamina. Assay of biological activity following intraluminal administration showed selective suppression of response to vasodilation with no effect on response by smooth muscle cells. CONCLUSIONS: The results from these studies identified: (1) a cell trafficking domain and a cytotoxic domain for killing brain tumor cells; (2) that cell killing was independent of the domain orientations with regard to the cell trafficking domain being at the C-terminus or N-terminus; and (3) that the dual domain peptide can also be taken up by endothelial cells as shown by the cerebral artery studies. Hence, localized expression of the cytotoxic gene has the potential to not only kill brain tumor cells, but also tumor endothelium, thus further increasing the effectiveness of the therapy.     

谷子ARF基因家族的鉴定与生物信息学分析

生长素应答因子(ARF,auxin response factors)是一类可以结合在生长素应答基因启动子部位的转录因子,在植物的生长发育中起至关重要的作用。本研究以谷子为材料,共鉴定出24个ARF基因,命名为Si ARFs。利用生物信息学对谷子Si ARFs基因的结构、染色体分布、基因倍增模式、系统进化以及基因的表达模式进行分析。结果表明,Si ARF基因家族在染色体上呈不均匀分布,除2号染色体外,其他染色体上都有该家族基因,基因的扩增模式为分散复制与片段复制。Si ARFs基因家族具有相对保守的结构,即包含1个保守的B3 DNA结构域、ARF结构域和Aux/IAA结构域,ARF蛋白的3D结构含有3个α螺旋和7个β折叠结构。进化树分析表明谷子ARF蛋白和物种相近的高粱、玉米聚在一起。大多数ARF基因在谷子根、茎、叶和穗中都有表达,且不同基因表达量有较大差异。     

PTK6 Inhibits Down-regulation of EGF Receptor through Phosphorylation of ARAP1

PTK6 (also known as Brk) is a non-receptor-tyrosine kinase containing SH3, SH2, and catalytic domains, that is expressed in more than 60% of breast carcinomas but not in normal mammary tissues. To analyze PTK6-interacting proteins, we have expressed Flag-tagged PTK6 in HEK293 cells and performed co-immunoprecipitation assays with Flag antibody-conjugated agarose. A 164-kDa protein in the precipitated fraction was identified as ARAP1 (also known as centaurin δ-2) by MALDI-TOF mass analysis. ARAP1 associated with PTK6 in an EGF/EGF receptor (EGFR)-dependent manner. In addition, the SH2 domain of PTK6, particularly the Arg¹⁰⁵ residue that contacts the phosphate group of the tyrosine residue, was essential for the association. Moreover, PTK6 phosphorylated residue Tyr²³¹ in the N-terminal domain of ARAP1. Expression of ARAP1, but not of the Y231F mutant, inhibited the down-regulation of EGFR in HEK293 cells expressing PTK6. Silencing of endogenous PTK6 expression in breast carcinoma cells decreased EGFR levels. These results demonstrate that PTK6 enhances EGFR signaling by inhibition of EGFR down-regulation through phosphorylation of ARAP1 in breast cancer cells.     

Synchronous intra-Golgi transport induces the release of Ca from the Golgi apparatus

The mechanisms of secretory transport through the Golgi apparatus remain an issue of debate. The precise functional importance of calcium ions (Ca²⁺) for intra-Golgi transport has also been poorly studied. Here, using different approaches to measure free Ca²⁺ concentrations in the cell cytosol ([Ca²⁺]_cyt) and inside the lumen of the Golgi apparatus ([Ca²⁺]_GA), we have revealed transient increases in [Ca²⁺]_cyt during the late phase of intra-Golgi transport that are concomitant with a decline in the maximal [Ca²⁺]_GA restoration ability. Thus, this redistribution of Ca²⁺ from the Golgi apparatus into the cytosol during the movement of cargo through the Golgi apparatus appears to have a role in intra-Golgi transport, and mainly in the late Ca²⁺-dependent phase of SNARE-regulated fusion of Golgi compartments.     

Activation of ARF6 by ARNO stimulates epithelial cell migration through downstream activation of both Rac1 and phospholipase D

Migration of epithelial cells is essential for tissue morphogenesis, wound healing, and metastasis of epithelial tumors. Here we show that ARNO, a guanine nucleotide exchange factor for ADP-ribosylation factor (ARF) GTPases, induces Madin-Darby canine kidney epithelial cells to develop broad lamellipodia, to separate from neighboring cells, and to exhibit a dramatic increase in migratory behavior. This transition requires ARNO catalytic activity, which we show leads to enhanced activation of endogenous ARF6, but not ARF1, using a novel pulldown assay. We further demonstrate that expression of ARNO leads to increased activation of endogenous Rac1, and that Rac activation is required for ARNO-induced cell motility. Finally, ARNO-induced activation of ARF6 also results in increased activation of phospholipase D (PLD), and inhibition of PLD activity also inhibits motility. However, inhibition of PLD does not prevent activation of Rac. Together, these data suggest that ARF6 activation stimulates two distinct signaling pathways, one leading to Rac activation, the other to changes in membrane phospholipid composition, and that both pathways are required for cell motility.     

ADP核糖基化因子的结构及其功能机制

ADP核糖基化因子(ADP-ribosylation factor,ARF)是Ras基因超家族的成员,它们是大小约20kDa的鸟嘌呤核苷酸结合蛋白。ARF最初发现作为霍乱毒素ADP-核糖转移酶的辅助因子共同作用于G蛋白α亚基,促使其ADP-核糖基化。近来人们发现ARF还参与囊泡运输、调节磷脂酶D的活性,在细胞内物质运输和信号转导过程中具有更加重要的生理功能。现就ARF的发现、分类、结构和功能、表达以及生理功能作一综述。     

Sorting nexin 27 interacts with the Cytohesin associated scaffolding protein (CASP) in lymphocytes

CASP is a small cytokine-inducible protein, primarily expressed in hematopoetic cells, which associates with members of the Cytohesin/ARNO family of guanine nucleotide-exchange factors. Cytohesins activate ARFs, a group of GTPases involved in vesicular initiation. Functionally, CASP is an adaptor protein containing a PDZ domain, a coiled-coil, and a potential carboxy terminal PDZ-binding motif that we sought to characterize here. Using GST pulldowns and mass spectrometry we identified the novel interaction of CASP and sorting nexin 27 (SNX27). In lymphocytes, CASP's PDZ-binding motif interacts with the PDZ domain of SNX27. This protein is a unique member of the sorting nexin family of proteins, a group generally involved in the endocytic and intracellular sorting machinery. Endogenous SNX27 and CASP co-localize at the early endosomal compartment in lymphocytes and also in transfection studies. These results suggest that endosomal SNX27 may recruit CASP to orchestrate intracellular trafficking and/or signaling complexes.     

The SERK1 receptor‐like kinase regulates organ separation in Arabidopsis flowers

Through a sensitized screen for novel components of pathways regulating organ separation in Arabidopsis flowers, we have found that the leucine‐rich repeat receptor‐like kinase SOMATIC EMBRYOGENESIS RECEPTOR‐LIKE KINASE1 (SERK1) acts as a negative regulator of abscission. Mutations in SERK1 dominantly rescue abscission in flowers without functional NEVERSHED (NEV), an ADP‐ribosylation factor GTPase‐activating protein required for floral organ shedding. We previously reported that the organization of the Golgi apparatus and location of the trans‐Golgi network (TGN) are altered in nev mutant flowers. Disruption of SERK1 restores Golgi structure and the close association of the TGN in nev flowers, suggesting that defects in these organelles may be responsible for the block in abscission. We have also found that the abscission zones of nev serk1 flowers are enlarged compared to wild‐type. A similar phenotype was previously observed in plants constitutively expressing a putative ligand required for organ separation, INFLORESCENCE DEFICIENT IN ABSCISSION (IDA), suggesting that signalling through IDA and its proposed receptors, HAESA and HAESA‐LIKE2, may be deregulated in nev serk1 abscission zone cells. Our studies indicate that in addition to its previously characterized roles in stamen development and brassinosteroid perception, SERK1 plays a unique role in modulating the loss of cell adhesion that occurs during organ abscission.