Your search keyword '"Ping Yao"' showing total 7 results

1. TMED10 mediates the trafficking of insulin-like growth factor 2 along the secretory pathway for myoblast differentiation.

Author

Tiantian Li, Feng Yang, Youshan Heng, Shaopu Zhou, Gang Wang, Jianying Wang, Jinhui Wang, Xianwei Chen, Zhong-Ping Yao, Zhenguo Wu, and Yusong Guo

Subjects

SOMATOMEDIN A, SMUGGLING, MEMBRANE proteins

Abstract

The insulin-like growth factor 2 (IGF2) plays critical roles in cell proliferation, migration, differentiation, and survival. Despite its importance, the molecular mechanisms mediating the trafficking of IGF2 along the secretory pathway remain unclear. Here, we utilized a Retention Using Selective Hook system to analyze molecular mechanisms that regulate the secretion of IGF2. We found that a type I transmembrane protein, TMED10, is essential for the secretion of IGF2 and for differentiation of mouse myoblast C2C12 cells. Further analyses indicate that the residues 112-140 in IGF2 are important for the secretion of IGF2 and these residues directly interact with the GOLD domain of TMED10. We then reconstituted the release of IGF2 into COPII vesicles. This assay suggests that TMED10 mediates the packaging of IGF2 into COPII vesicles to be efficiently delivered to the Golgi. Moreover, TMED10 also mediates ER export of TGN-localized cargo receptor, sortilin, which subsequently mediates TGN export of IGF2. These analyses indicate that TMED10 is critical for IGF2 secretion by directly regulating ER export and indirectly regulating TGN export of IGF2, providing insights into trafficking of IGF2 for myoblast differentiation. [ABSTRACT FROM AUTHOR]

Published

2023

2. On the Similarity of Chain Length of Nucleic Acids

Author

Cheng, Ping-Yao

Published

1959

3. β -Forming Protein Chain in a Globular Enzyme, Deoxyribonuclease i

Author

Cheng, Ping-Yao

Published

1966

4. An in vitro vesicle formation assay reveals cargo clients and factors that mediate vesicular trafficking.

Author

Yan Huang, Haidi Yin, Baiying Li, Qian Wu, Yang Liu, Poljak, Kristina, Maldutyte, Julija, Xiao Tang, Mo Wang, Zhixiao Wu, Miller, Elizabeth A., Liwen Jiang, Zhong-Ping Yao, and Yusong Guo

Subjects

FREIGHT & freightage, CARRIER proteins, PROTEIN transport, COMMERCIAL products, ENDOPLASMIC reticulum, MASS spectrometry, EXPORT controls

Abstract

The fidelity of protein transport in the secretory pathway relies on the accurate sorting of proteins to their correct destinations. To deepen our understanding of the underlying molecular mechanisms, it is important to develop a robust approach to systematically reveal cargo proteins that depend on specific sorting machinery to be enriched into transport vesicles. Here, we used an in vitro assay that reconstitutes packaging of human cargo proteins into vesicles to quantify cargo capture. Quantitative mass spectrometry (MS) analyses of the isolated vesicles revealed cytosolic proteins that are associated with vesicle membranes in a GTP-dependent manner. We found that two of them, FAM84B (also known as LRAT domain containing 2 or LRATD2) and PRRC1, contain proline-rich domains and regulate anterograde trafficking. Further analyses revealed that PRRC1 is recruited to endoplasmic reticulum (ER) exit sites, interacts with the inner COPII coat, and its absence increases membrane association of COPII. In addition, we uncovered cargo proteins that depend on GTP hydrolysis to be captured into vesicles. Comparing control cells with cells depleted of the cargo receptors, SURF4 or ERGIC53, we revealed specific clients of each of these two export adaptors. Our results indicate that the vesicle formation assay in combination with quantitative MS analysis is a robust and powerful tool to uncover novel factors that mediate vesicular trafficking and to uncover cargo clients of specific cellular factors. [ABSTRACT FROM AUTHOR]

Published

2021

5. Atlastin-mediated membrane tethering is critical for cargo mobility and exit from the endoplasmic reticulum.

Author

Liling Niu, Tianji Ma, Feng Yang, Bing Yan, Xiao Tang, Haidi Yin, Qian Wu, Yan Huang, Zhong-Ping Yao, Jifeng Wang, Yusong Guo, and Junjie Hu

Subjects

FAMILIAL spastic paraplegia, BIOLOGICAL transport

Abstract

Endoplasmic reticulum (ER) membrane junctions are formed by the dynamin-like GTPase atlastin (ATL). Deletion of ATL results in long unbranched ER tubules in cells, and mutation of human ATL1 is linked to hereditary spastic paraplegia. Here, we demonstrate that COPII formation is drastically decreased in the periphery of ATLdeleted cells. ER export of cargo proteins becomes defective; ER exit site initiation is not affected, but many of the sites fail to recruit COPII subunits. The efficiency of cargo packaging into COPII vesicles is significantly reduced in cells lacking ATLs, or when the ER is transiently fragmented. Cargo is less mobile in the ER in the absence of ATL, but the cargo mobility and COPII formation can be restored by ATL R77A, which is capable of tethering, but not fusing, ER tubules. These findings suggest that the generation of ER junctions by ATL plays a critical role in maintaining the necessary mobility of ER contents to allow efficient packaging of cargo proteins into COPII vesicles. [ABSTRACT FROM AUTHOR]

Published

2019

6. Nuclear envelope proteins modulate proliferation of vascular smooth muscle cells during cyclic stretch application.

Author

Ying-Xin Qi, Qing-Ping Yao, Kai Huang, Qian Shi, Ping Zhang, Guo-Liang Wang, Yue Han, Han Bao, Lu Wang, Hai-Peng Li, Bao-Rong Shen, Yingxiao Wang, Shu Chien, and Zong-Lai Jiang

Subjects

*VASCULAR smooth muscle, *MUSCLE cells, *HYPERTENSION, *NUCLEAR membranes, *CELL membranes

Abstract

Cyclic stretch is an important inducer of vascular smooth muscle cell (VSMC) proliferation, which is crucial in vascular remodeling during hypertension. However, the molecular mechanism remains unclear. We studied the effects of emerin and lamin A/C, two important nuclear envelope proteins, on VSMC proliferation in hypertension and the underlying mechano-mechanisms. In common carotid artery of hypertensive rats in vivo and in cultured cells subjected to high (15%) cyclic stretch in vitro, VSMC proliferation was increased significantly, and the expression of emerin and lamin A/C was repressed compared with normotensive or normal (5%) cyclic stretch controls. Using targeted siRNA to mimic the repressed expression of emerin or lamin A/C induced by 15% stretch, we found that VSMC proliferation was enhanced under static and 5%-stretch conditions. Overexpression of emerin or lamin A/C reversed VSMC proliferation induced by 15% stretch. Hence, emerin and lamin A/C play critical roles in suppressing VSMC hyperproliferation induced by hyperstretch. ChIP-on-chip and MOTIF analyses showed that the DNAs binding with emerin contain three transcription factor motifs: CCNGGA, CCMGCC, and ABTTCCG; DNAs binding with lamin A/C contain the motifs CVGGAA, GCCGCYGC, and DAAGAAA. Protein/DNA array proved that altered emerin or lamin A/C expression modulated the activation of various transcription factors. Furthermore, accelerating local expression of emerin or lamin A/C reversed cell proliferation in the carotid artery of hypertensive rats in vivo. Our findings establish the pathogenetic role of emerin and lamin A/C repression in stretch-induced VSMC proliferation and suggest mechanobiological mechanism underlying this process that involves the sequence-specific binding of emerin and lamin A/C to specific transcription factor motifs. [ABSTRACT FROM AUTHOR]

Published

2016

7. Beta-forming protein chain in a globular enzyme, deoxyribonuclease I

Author

Ping-Yao Cheng

Subjects

chemistry.chemical_classification, Multidisciplinary, Deoxyribonucleases, Chemical Phenomena, Chemistry, Physical, Infrared Rays, In Vitro Techniques, Protein chain, Crystallography, Enzyme, chemistry, Biochemistry, Spectrophotometry, Globular cluster, Animals, Cattle, Ultracentrifuge, Deoxyribonuclease I, Beta (finance), Pancreas, Ultracentrifugation, Research Article

Published

1966