Yuan Xue scite author profile

The yeast RAS1 and RAS2 genes appear to be involved in control of cell growth in response to nutrients. Here we show that this growth control also involves a signal mediated by the heterotrimeric G protein alpha subunit homolog encoded by GPA2. A GPA2 null allele conferred a severe growth defect on cells containing a null allele of RAS2, although either mutation alone had little effect on growth rate. A constitutive allele of GPA2 could stimulate growth of a strain lacking both RAS genes. Constitutive GPA2 conferred heat shock sensitivity on both wild-type cells and cells lacking RAS function, but had no effect in a strain containing a null allele of SCH9, which encodes a kinase related to protein kinase A. The GPR1 gene was isolated and was found to encode a protein with the characteristics of a G protein-coupled receptor. Double Deltagpr1 Deltaras2 mutants displayed a severe growth defect that was suppressed by expression of the constitutive allele of GPA2, confirming that GPR1 acts upstream of GPA2. Gpr1p is expressed on the cell surface and requires sequences in the membrane-proximal region of its third cytoplasmic loop for function, as expected for a G protein-coupled receptor. GPR1 RNA was induced when cells were starved for nitrogen and amino acids. These results are consistent with a model in which the GPR1/GPA2 pathway activates the Sch9p kinase to generate a response that acts in parallel with that generated by the Ras/cAMP pathway, resulting in the integration of nutrient signals.

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Activation of lysosomal function in the course of autophagy via mTORC1 suppression and autophagosome-lysosome fusion

Zhou

Tan

Nicolas³

et al. 2013

Cell Res

353

253

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Lysosome is a key subcellular organelle in the execution of the autophagic process and at present little is known whether lysosomal function is controlled in the process of autophagy. In this study, we first found that suppression of mammalian target of rapamycin (mTOR) activity by starvation or two mTOR catalytic inhibitors (PP242 and Torin1), but not by an allosteric inhibitor (rapamycin), leads to activation of lysosomal function. Second, we provided evidence that activation of lysosomal function is associated with the suppression of mTOR complex 1 (mTORC1), but not mTORC2, and the mTORC1 localization to lysosomes is not directly correlated to its regulatory role in lysosomal function. Third, we examined the involvement of transcription factor EB (TFEB) and demonstrated that TFEB activation following mTORC1 suppression is necessary but not sufficient for lysosomal activation. Finally, Atg5 or Atg7 deletion or blockage of the autophagosome-lysosome fusion process effectively diminished lysosomal activation, suggesting that lysosomal activation occurring in the course of autophagy is dependent on autophagosome-lysosome fusion. Taken together, this study demonstrates that in the course of autophagy, lysosomal function is upregulated via a dual mechanism involving mTORC1 suppression and autophagosome-lysosome fusion.

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Crystal Structures of Enterovirus 71 3C Protease Complexed with Rupintrivir Reveal the Roles of Catalytically Important Residues

Wang

Fan

Xue

et al. 2011

J Virol

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EV71 is the primary pathogenic cause of hand-foot-mouth disease (HFMD), but an effective antiviral drug currently is unavailable. Rupintrivir, an inhibitor against human rhinovirus (HRV), has potent antiviral activities against EV71. We determined the high-resolution crystal structures of the EV71 3C pro /rupintrivir complex, showing that although rupintrivir interacts with EV71 3C pro similarly to HRV 3C pro , the C terminus of the inhibitor cannot accommodate the leaving-group pockets of EV71 3C pro . Our structures reveal that EV71 3C pro possesses a surface-recessive S2 pocket that is not present in HRV 3C pro that contributes to the additional substrate binding affinity. Combined with mutagenic studies, we demonstrated that catalytic Glu71 is irreplaceable for maintaining the overall architecture of the active site and, most importantly, the productive conformation of catalytic His40. We discovered the role of a previously uncharacterized residue, Arg39 of EV71 3Cpro , that can neutralize the negative charge of Glu71, which may subsequently assist deprotonation of His40 during proteolysis.

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Increasing the homogeneity, stability and activity of human serum albumin and interferon-α2b fusion protein by linker engineering

Zhao

Xue

et al. 2008

Protein Expression and Purification

140

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The M-T Hook Structure Is Critical for Design of HIV-1 Fusion Inhibitors

Chong

Xue

Sun

et al. 2012

Journal of Biological Chemistry

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Background:We recently found that N-terminal residues Met-626 and Thr-627 of HIV-1 fusion inhibitor CP621-652 adopt a unique hook-like structure, termed the M-T hook. Results: The structure and function of the M-T hook have been characterized. Conclusion: The M-T hook is critical for the stability and antiviral activity of HIV-1 fusion inhibitors. Significance: Our data provide important information for designing novel HIV-1 fusion inhibitors.

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Yuan Xue

GPR1 encodes a putative G protein-coupled receptor that associates with the Gpa2p Gα subunit and functions in a Ras-independent pathway

Activation of lysosomal function in the course of autophagy via mTORC1 suppression and autophagosome-lysosome fusion

Crystal Structures of Enterovirus 71 3C Protease Complexed with Rupintrivir Reveal the Roles of Catalytically Important Residues

Increasing the homogeneity, stability and activity of human serum albumin and interferon-α2b fusion protein by linker engineering

The M-T Hook Structure Is Critical for Design of HIV-1 Fusion Inhibitors

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