人Septin家族成员KIAA0202与hPFTAIRE1的相互作用

hPFTAIRE1是一个人Cdc2相关激酶 ,分布在胞液中。为了寻找hPFTAIRE1的底物及调控蛋白 ,将hPFTAIRE1与LexA蛋白融合 ,作为靶蛋白筛选人脑LexA双杂交文库 ,筛选到了包括KIAA0 2 0 2在内的 7个hPFTAIRE1结合蛋白。免疫共沉淀实验证实了KIAA0 2 0 2和hPFTAIRE1的相互作用。KIAA0 2 0 2是一个septin家族成员 ,含 5 0 8个氨基酸 ,与人septin2有最高的同源性 ,达 70 % ,蛋白质分子中部是一个septin家族特有的GTP-CDC保守结构域。KIAA0 2 0 2和hPFTAIRE1的相互作用提示KIAA0 2 0 2在hPFTAIRE1的功能调控中有重要作用。     

PLZF与哺乳动物雄性生殖干细胞的发育分化

早幼粒细胞白血病锌指蛋白（promyelocytic leukemia zinc finger,PLZF）,也被称为ZBTB16(zinc finger and BTB domain containing 16,ZBTB16)或锌指蛋白145(zinc finger protein 145,ZFP145),是我国学者发现与人类疾病相关的蛋白质.人类PLZF的是由673个氨基酸残基组成的转录抑制因子,属于蛋白质超家族. 该超家族以N端的BTB/POZ（bric-à-brac, tramtrack, brad complex(BTB)/poxvirus zinc finger (POZ) domain）结构为特征. PLZF蛋白的BTB/POZ结构与个体发育、胚胎发生、染色体的重构等事件相关.近年发现,PLZF在哺乳动物雄性生殖干细胞（male germline stem cells,mGSCs）发育分化过程中也发挥重要作用.探讨PLZF的生物学功能和作用机制,将有助于理解其在mGSCs发育过程中的重要作用. 本文就PLZF在维持mGSCs自我更新和在发育分化调控中的作用给予综述.     

A Cdc2-related protein kinase hPFTAIRE1 from human brain interacting with 14-3-3 proteins

hPFTAIRE1 （PFTK1）, a Cdc2-related protein kinase, is highly expressed in human brain. It exhibits cytoplasmic distribution in Hela cells, although it contains two nuclear localization signals （NLSs） in its N-terminus. To search for its substrates and regulatory components, we screened a two-hybrid library by using the full-length hPFTAIRE1 as a bait. Four 14-3-3 isoforms （β,ε,η,τ） were identified interacting with the hPFTAIRE1. We found a putative 14-3-3 binding consensus motif（RHSSPSS） in the hPFTAIRE 1, which overlapped with its second NLS. Deletion of the RHSSPSS motif or substitution of Ser^119 gwithAla in the conserved binding motif abolished the specific interaction between the hPFTAIRE 1 and the 14-3 -3 proteins. The mutant S 120A hPFTAIRE1 also showed a weak interaction to the 14-3-3 proteins. The results suggested that the Ser^119 is crucial for the interaction between hPFTAIREI and the 14-3-3 proteins. All the hPFTAIRE1 mutants distributed in cytoplasm of Hela cells and human neuroblastoma cells （SH-SY5Y） when fused to the C-terminus of a green fluorescent protein （GFP）, indicating that binding with the 14-3-3 proteins does not contribute to the subcellular localization of the hPFTAIRE1, although the binding may be involved in its signaling regulation.     

重组PLZF蛋白锌指结构域的表达、提纯和活性分析

PLZF(promyelocytic leukaemia zinc finger protein)是一种重要的转录抑制因子,它由位于N端的BTB结构域和C端的锌指结构域构成。鉴于目前对于锌指结构域的立体结构还不是十分清楚,对其进行了高效表达和提纯。为了表达PLZF蛋白的锌指结构域,在其编码序列的5'端加上起始密码ATG后插入到表达载体PET-11a的多克隆位点。构建好的表达质粒转化到BL21 (DE3)大肠杆菌内并用IPTG诱导表达,发现重组蛋白主要以不溶性的包涵体形式在胞内表达。用含有SDS变性剂的缓冲液溶解包涵体后,采用凝胶过滤方法将重组蛋白纯化到纯度达96%以上。对纯化后的蛋白质用反透析的方法进行复性,然后用DNA结合实验进行活性分析,发现复性后的蛋白质具有特异的DNA结合活性,这为进一步研究PLZF蛋白锌指结构域的立体结构打下了重要基础。     

Characterization of two novel nuclear BTB/POZ domain zinc finger isoforms. Association with differentiation of hippocampal neurons, cerebellar granule cells, and macroglia.

BTB/POZ (broad complex tramtrack bric-a-brac/poxvirus and zinc finger) zinc finger factors are a class of nuclear DNA-binding proteins involved in development, chromatin remodeling, and cancer. However, BTB/POZ domain zinc finger factors linked to development of the mammalian cerebral cortex, cerebellum, and macroglia have not been described previously. We report here the isolation and characterization of two novel nuclear BTB/POZ domain zinc finger isoforms, designated HOF(L) and HOF(S), that are specifically expressed in early hippocampal neurons, cerebellar granule cells, and gliogenic progenitors as well as in differentiated glia. During embryonic development of the murine cerebral cortex, HOF expression is restricted to the hippocampal subdivision. Expression coincides with early differentiation of presumptive CA1 and CA3 pyramidal neurons and dentate gyrus granule cells, with a sharp decline in expression at the CA1/subicular border. By using bromodeoxyuridine labeling and immunohistochemistry, we show that HOF expression coincides with immature non-dividing cells and is down-regulated in differentiated cells, suggesting a role for HOF in hippocampal neurogenesis. Consistent with the postulated role of the POZ domain as a site for protein-protein interactions, both HOF isoforms are able to dimerize. The HOF zinc fingers bind specifically to the binding site for the related promyelocytic leukemia zinc finger protein as well as to a newly identified DNA sequence.     

Targeting the Acute Promyelocytic Leukemia-Associated Fusion Proteins PML/RARα and PLZF/RARα with Interfering Peptides

In acute promyelocytic leukemia (APL), hematopoietic differentiation is blocked and immature blasts accumulate in the bone marrow and blood. APL is associated with chromosomal aberrations, including t(15;17) and t(11;17). For these two translocations, the retinoic acid receptor alpha (RARα) is fused to the promyelocytic leukemia (PML) gene or the promyelocytic zinc finger (PLZF) gene, respectively. Both fusion proteins lead to the formation of a high-molecular-weight complex. High-molecular-weight complexes are caused by the “coiled-coil” domain of PML or the BTB/POZ domain of PLZF. PML/RARα without the “coiled-coil” fails to block differentiation and mediates an all-trans retinoic acid-response. Similarly, mutations in the BTB/POZ domain disrupt the high-molecular-weight complex, abolishing the leukemic potential of PLZF/RARα. Specific interfering polypeptides were used to target the oligomerization domain of PML/RARα or PLZF/RARα. PML/RARα and PLZF/RARα were analyzed for the ability to form high-molecular-weight complexes, the protein stability and the potential to induce a leukemic phenotype in the presence of the interfering peptides. Expression of these interfering peptides resulted in a reduced replating efficiency and overcame the differentiation block induced by PML/RARα and PLZF/RARα in murine hematopoietic stem cells. This expression also destabilized the PLZF/RARα-induced high-molecular-weight complex formation and caused the degradation of the fusion protein. Targeting fusion proteins through interfering peptides is a promising approach to further elucidate the biology of leukemia.