Jianmin Zhang scite author profile

In a screen for gene copy-number changes in mouse mammary tumors, we identified a tumor with a small 350-kb amplicon from a region that is syntenic to a much larger locus amplified in human cancers at chromosome 11q22. The mouse amplicon contains only one known gene, Yap, encoding the mammalian ortholog of Drosophila Yorkie (Yki), a downstream effector of the Hippo(Hpo)-Salvador(Sav)-Warts(Wts) signaling cascade, recently identified in flies as a critical regulator of cellular proliferation and apoptosis. In nontransformed mammary epithelial cells, overexpression of human YAP induces epithelial-to-mesenchymal transition, suppression of apoptosis, growth factor-independent proliferation, and anchorage-independent growth in soft agar. Together, these observations point to a potential oncogenic role for YAP in 11q22-amplified human cancers, and they suggest that this highly conserved signaling pathway identified in Drosophila regulates both cellular proliferation and apoptosis in mammalian epithelial cells.breast ͉ mammary ͉ transformation ͉ Yorkie

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Pathological α-synuclein transmission initiated by binding lymphocyte-activation gene 3

Mao

Karuppagounder

et al. 2016

Science

596

654

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INTRODUCTION Parkinson’s disease (PD) is the second most common neurodegenerative disorder that leads to slowness of movement, tremor, rigidity and in the later stages of PD, cognitive impairment. Pathologically PD is characterized by the accumulation of α-synuclein in Lewy bodies and neurites. There is degeneration of neurons throughout the nervous system with the degeneration of dopamine neurons in the substantia nigra pars compacta leading to the major symptoms of PD. RATIONALE In the brains of PD patients, pathologic α-synuclein seems to spread from cell-to-cell via self-amplification, propagation, and transmission in a stereotypical and topographical pattern among neighboring cells and/or anatomically connected brain regions. The spread or transmission of pathologic α-synuclein is emerging as potentially important driver of PD pathogenesis. The underlying mechanisms and molecular entities responsible for the transmission of pathologic α-synuclein from cell-to-to cell are not known, but the entry of pathologic α-synuclein into neurons is thought to occur, in part through an active clathrin-dependent endocytic process. RESULTS Using recombinant α-synuclein pre-formed fibrils (PFF) as a model system to study the transmission of misfolded α-synuclein from neuron to neuron, we screened a library encoding transmembrane proteins for α-synuclein-biotin PFF binding candidates via detection by streptavidin-AP (alkaline phosphatase) staining. Three positive clones were identified that bind α-synuclein PFF and include lymphocyte-activation gene 3 (LAG3), neurexin 1β and amyloid beta precursor-like protein 1 (APLP1). Of these three transmembrane proteins, LAG3 demonstrated the highest ratio of selectivity for α-synuclein PFF over the α-synuclein monomer. α-Synuclein PFF binds to LAG3 in a saturable manner (Kd = 77 nM), while the α-synuclein monomer does not bind to LAG3. Co-immunoprecipitation also suggests that pathological α-synuclein PFF specifically binds to LAG3. Tau PFF, β-amyloid oligomer and β-amyloid PFF do not bind LAG3 indicating that LAG3 is specific for α-synuclein PFF. The internalization of α-synuclein PFF involves LAG3 since deletion of LAG3 reduces the endocytosis of α-synuclein PFF. LAG3 colocalizes with the endosomal GTPases, Rab5 and Rab7 and co-endocytoses with pathologic α-synuclein. Neuron-to-neuron transmission of pathologic α-synuclein and the accompanying pathology and neurotoxicity is substantially attenuated by deletion of LAG3 or by LAG3 antibodies. The lack of LAG3 also substantially delayed α-synuclein PFF induced loss of dopamine neurons, as well as biochemical and behavioral deficits in vivo. CONCLUSION We discovered that pathologic α-synuclein transmission and toxicity is initiated by binding to LAG3 and that neuron-to-neuron transmission of pathological α-synuclein involves the endocytosis of exogenous α-synuclein PFF by the engagement of LAG3 on neurons. Depletion of LAG3 or antibodies to LAG3 substantially reduce the pathology set in motion by the transmission of pathologic α-...

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Supported Absorption of CO₂ by Tetrabutylphosphonium Amino Acid Ionic Liquids

Zhang

Dong

et al. 2006

Chemistry A European J

505

430

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A new type of "task specific ionic liquid", tetrabutylphosphonium amino acid [P(C4)4][AA], was synthesized by the reaction of tetrabutylphosphonium hydroxide [P(C4)4][OH] with amino acids, including glycine, L-alanine, L-beta-alanine, L-serine, and L-lysine. The liquids produced were characterized by NMR, IR spectroscopies, and elemental analysis, and their thermal decomposition temperature, glass transition temperature, electrical conductivity, density, and viscosity were recorded in detail. The [P(C4)4][AA] supported on porous silica gel effected fast and reversible CO2 absorption when compared with bubbling CO2 into the bulk of the ionic liquid. No changes in absorption capacity and kinetics were found after four cycles of absorption/desorption. The CO2 absorption capacity at equilibrium was 50 mol % of the ionic liquids. In the presence of water (1 wt %), the ionic liquids could absorb equimolar amounts of CO2. The CO2 absorption mechanisms of the ionic liquids with and without water were different.

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Jianmin Zhang

Transforming properties of YAP , a candidate oncogene on the chromosome 11q22 amplicon

Pathological α-synuclein transmission initiated by binding lymphocyte-activation gene 3

Supported Absorption of CO₂ by Tetrabutylphosphonium Amino Acid Ionic Liquids

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Jianmin Zhang

Transforming properties of YAP , a candidate oncogene on the chromosome 11q22 amplicon

Pathological α-synuclein transmission initiated by binding lymphocyte-activation gene 3

Supported Absorption of CO2 by Tetrabutylphosphonium Amino Acid Ionic Liquids

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Supported Absorption of CO₂ by Tetrabutylphosphonium Amino Acid Ionic Liquids