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Elevated expression of serum amyloid A 3 protects colon epithelium against acute injury through TLR2-dependent induction of neutrophil IL-22 expression in a mouse model of colitis Journal article
Zhang G., Liu J., Wu L., Fan Y., Sun L., Qian F., Chen D., Ye R.D.. Elevated expression of serum amyloid A 3 protects colon epithelium against acute injury through TLR2-dependent induction of neutrophil IL-22 expression in a mouse model of colitis[J]. Frontiers in Immunology, 2018, 9(JUN).
Authors:  Zhang G.;  Liu J.;  Wu L.;  Fan Y.;  Sun L.; et al.
Favorite | TC[WOS]:32 TC[Scopus]:33 | Submit date:2018/11/07
Colitis  Cytokines  Inflammation  Innate Immunity  Neutrophils  Serum Amyloid a  
THE CONCISE GUIDE TO PHARMACOLOGY 2017/18: Overview Journal article
Alexander S.P.H., Kelly E., Marrion N.V., Peters J.A., Faccenda E., Harding S.D., Pawson A.J., Sharman J.L., Southan C., Buneman O.P., Cidlowski J.A., Christopoulos A., Davenport A.P., Fabbro D., Spedding M., Striessnig J., Davies J.A., Abbracchio M.-P., Aldrich R., Al-Hosaini K., Arumugam T.V., Attali B., Back M., Barnes N.M., Bathgate R., Beart P.M., Becirovic E., Bettler B., Biel M., Birdsall N.J., Blaho V., Boison D., Brauner-osborne H., Broer S., Bryant C., Burnstock G., Calo G., Catterall W.A., Ceruti S., Chan S.L., Chandy K.G., Chazot P., Chiang N., Chun J.J., Chung J.-J., Clapham D.E., Clapp L., Connor M.A., Cox H.M., Davies P., Dawson P.A., Decaen P., Dent G., Doherty P., Douglas S.D., Dubocovich M.L., Fong T.M., Fowler C.J., Frantz A., Fuller P., Fumagalli M., Futerman A.H., Gainetdinov R.R., Gershengorn M.A., Goldin A., Goldstein S.A.N., Goudet C., Gregory K., Grissmer S., Gundlach A.L., Hagenbuch B., Hamann J., Hammond J.R., Hancox J.C., Hanson J., Hanukoglu I., Hay D.L., Hobbs A.J., Hollenberg A.N., Holliday N.D., Hoyer D., Ijzerman A.P., Inui K.I., Irving A.J., Ishii S., Jacobson K.A., Jan L.Y., Jarvis M.F., Jensen R., Jockers R., Kaczmarek L.K., Kanai Y., Karnik S., Kellenberger S., Kemp S., Kennedy C., Kerr I.D., Kihara Y., Kukkonen J., Larhammar D., Leach K., Lecca D., Leeman S., Leprince J., Lolait S.J., Macewan D., Maguire J.J., Marshall F., Mazella J., Mcardle C.A., Michel M.C., Miller L.J., Mitolo V., Mizuno H., Monk P.N., Mouillac B., Murphy P.M., Nahon J.-L., Nerbonne J., Nichols C.G., Norel X., Offermanns S., Palmer L.G., Panaro M.A., Papapetropoulos A., Perez-reyes E., Pertwee R.G., Pintor S., Pisegna J.R., Plant L.D., Poyner D.R., Prossnitz E.R., Pyne S., Ramachandran R., Ren D., Rondard P., Ruzza C., Sackin H., Sanger G., Sanguinetti M.C., Schild L., Schioth H., Schulte G., Schulz S., Segaloff D.L., Serhan C.N., Singh K.D., Slesinger P.A., Snutch T.P., Sobey C.G., Stewart G., Stoddart L.A., Summers R.J., Szabo C., Thwaites D., Toll L., Trimmer J.S., Tucker S., Vaudry H., Verri T., Vilargada J.-P., Waldman S.A., Ward D.T., Waxman S.G., Wei A.D., Willars G.B., Wong S.S., Woodruff T.M., Wulff H., Ye R.D., Yung Y., Zajac J.-M.. THE CONCISE GUIDE TO PHARMACOLOGY 2017/18: Overview[J]. British Journal of Pharmacology, 2017, 174, S1-S16.
Authors:  Alexander S.P.H.;  Kelly E.;  Marrion N.V.;  Peters J.A.;  Faccenda E.; et al.
Favorite | TC[WOS]:196 TC[Scopus]:230 | Submit date:2018/11/07
4’-Hydroxywogonin suppresses lipopolysaccharide-induced inflammatory responses in RAW 264.7 macrophages and acute lung injury mice Journal article
Fan C., Wu L.-H., Zhang G.-F., Xu F., Zhang S., Zhang X., Sun L., Yu Y., Zhang Y., Ye R.D.. 4’-Hydroxywogonin suppresses lipopolysaccharide-induced inflammatory responses in RAW 264.7 macrophages and acute lung injury mice[J]. PLoS ONE, 2017, 12(8).
Authors:  Fan C.;  Wu L.-H.;  Zhang G.-F.;  Xu F.;  Zhang S.; et al.
Favorite | TC[WOS]:22 TC[Scopus]:25 | Submit date:2018/11/07
Suppression of lipopolysaccharide-induced inflammatory response by fragments from serum amyloid A Journal article
Zhou H., Chen M., Zhang G., Ye R.D.. Suppression of lipopolysaccharide-induced inflammatory response by fragments from serum amyloid A[J]. Journal of Immunology, 2017, 199(3), 1105-1112.
Authors:  Zhou H.;  Chen M.;  Zhang G.;  Ye R.D.
Favorite | TC[WOS]:23 TC[Scopus]:23 | Submit date:2018/11/07
AKT2 regulates pulmonary inflammation and fibrosis via modulating macrophage activation Journal article
Nie Y., Sun L., Wu Y., Yang Y., Wang J., He H., Hu Y., Chang Y., Liang Q., Zhu J., Ye R.D., Christman J.W., Qian F.. AKT2 regulates pulmonary inflammation and fibrosis via modulating macrophage activation[J]. Journal of Immunology, 2017, 198(11), 4470-4480.
Authors:  Nie Y.;  Sun L.;  Wu Y.;  Yang Y.;  Wang J.; et al.
Favorite | TC[WOS]:64 TC[Scopus]:64 | Submit date:2018/11/07
Selenium-mediated protection in reversing the sensitivity of bacterium to the bactericidal antibiotics Journal article
Li Z., Tan J., Shao L., Dong X., Ye R.D., Chen D.. Selenium-mediated protection in reversing the sensitivity of bacterium to the bactericidal antibiotics[J]. Journal of Trace Elements in Medicine and Biology, 2017, 41, 23-31.
Authors:  Li Z.;  Tan J.;  Shao L.;  Dong X.;  Ye R.D.; et al.
Favorite | TC[WOS]:12 TC[Scopus]:13 | Submit date:2018/11/07
Antibacterial  Reactive Oxygen Species (Ros)  Selenium  Total Antioxidant Capacity (T-aoc)  
An exploration of traditional Chinese medicinal plants with anti-inflammatory activities Journal article
Fan C., Jin H.-Z., Wu L., Zhang Y., Ye R.D., Zhang W., Zhang Y.. An exploration of traditional Chinese medicinal plants with anti-inflammatory activities[J]. Evidence-based Complementary and Alternative Medicine, 2017, 2017.
Authors:  Fan C.;  Jin H.-Z.;  Wu L.;  Zhang Y.;  Ye R.D.; et al.
Favorite | TC[WOS]:11 TC[Scopus]:16 | Submit date:2018/11/07
New biphenantherene and nervogenic acid derivatives from Liparis regnieri Finet and their inhibitory activities against NF-κB activation Journal article
Ren J., Fan C., Guo Y.-G., Yan S.-K., Ye R.D., Zhang Y., Jin H.-Z., Zhang W.-D.. New biphenantherene and nervogenic acid derivatives from Liparis regnieri Finet and their inhibitory activities against NF-κB activation[J]. Tetrahedron, 2017, 73(12), 1611-1617.
Authors:  Ren J.;  Fan C.;  Guo Y.-G.;  Yan S.-K.;  Ye R.D.; et al.
Favorite | TC[WOS]:6 TC[Scopus]:8 | Submit date:2018/11/07
Biphenantherene  Liparis Regnieri Finet  Nervogenic Acid Derivative  Nf-κb  Orchidaceae  Phenanthrene  
Cutting edge: A cullin-5-TRAF6 interaction promotes TRAF6 polyubiquitination and lipopolysaccharide signaling Journal article
Zhu Z., Wang L., Hao R., Zhao B., Sun L., Ye R.D.. Cutting edge: A cullin-5-TRAF6 interaction promotes TRAF6 polyubiquitination and lipopolysaccharide signaling[J]. Journal of Immunology, 2016, 197(1), 21-26.
Authors:  Zhu Z.;  Wang L.;  Hao R.;  Zhao B.;  Sun L.; et al.
Favorite | TC[WOS]:20 TC[Scopus]:21 | Submit date:2018/11/07
Shikonin derivative DMAKO-05 inhibits akt signal activation and melanoma proliferation Journal article
Yang Y.-Y., He H.-Q., Cui J.-H., Nie Y.-J., Wu Y.-X., Wang R., Wang G., Zheng J.-N., Ye R.D., Wu Q., Li S.-S., Qian F.. Shikonin derivative DMAKO-05 inhibits akt signal activation and melanoma proliferation[J]. Chemical Biology and Drug Design, 2016, 87(6), 895-904.
Authors:  Yang Y.-Y.;  He H.-Q.;  Cui J.-H.;  Nie Y.-J.;  Wu Y.-X.; et al.
Favorite | TC[WOS]:22 TC[Scopus]:24 | Submit date:2018/11/07
Apoptosis  Cell Cycle Arrest  Cytotoxicity  Dmako-05  Melanoma Cell B16f0  Shikonin