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Items: 1 to 50 of 70

1.

Gestural repertoire size is associated with social proximity measures in wild chimpanzees.

Roberts AI, Chakrabarti A, Roberts SGB.

Am J Primatol. 2019 Mar;81(3):e22954. doi: 10.1002/ajp.22954. Epub 2019 Feb 1.

PMID:
30706956
2.

Persistence in gestural communication predicts sociality in wild chimpanzees.

Roberts AI, Roberts SGB.

Anim Cogn. 2018 Oct 19. doi: 10.1007/s10071-018-1219-6. [Epub ahead of print]

PMID:
30338419
3.
4.

Convergence and divergence in gesture repertoires as an adaptive mechanism for social bonding in primates.

Roberts AI, Roberts SGB.

R Soc Open Sci. 2017 Nov 29;4(11):170181. doi: 10.1098/rsos.170181. eCollection 2017 Nov.

5.

Kynurenic acid, an IDO metabolite, controls TSG-6-mediated immunosuppression of human mesenchymal stem cells.

Wang G, Cao K, Liu K, Xue Y, Roberts AI, Li F, Han Y, Rabson AB, Wang Y, Shi Y.

Cell Death Differ. 2018 Jul;25(7):1209-1223. doi: 10.1038/s41418-017-0006-2. Epub 2017 Dec 13.

6.

Social Brain Hypothesis: Vocal and Gesture Networks of Wild Chimpanzees.

Roberts SG, Roberts AI.

Front Psychol. 2016 Nov 24;7:1756. eCollection 2016.

7.

SHP1 Regulates Bone Mass by Directing Mesenchymal Stem Cell Differentiation.

Jiang M, Zheng C, Shou P, Li N, Cao G, Chen Q, Xu C, Du L, Yang Q, Cao J, Han Y, Li F, Cao W, Liu F, Rabson AB, Roberts AI, Xie W, Wang Y, Shi Y.

Cell Rep. 2016 Nov 15;17(8):2161. doi: 10.1016/j.celrep.2016.10.069. No abstract available.

8.
9.

SHP1 Regulates Bone Mass by Directing Mesenchymal Stem Cell Differentiation.

Jiang M, Zheng C, Shou P, Li N, Cao G, Chen Q, Xu C, Du L, Yang Q, Cao J, Han Y, Li F, Cao W, Liu F, Rabson AB, Roberts AI, Xie W, Wang Y, Shi Y.

Cell Rep. 2016 Jul 19;16(3):769-80. doi: 10.1016/j.celrep.2016.06.035. Epub 2016 Jul 7. Erratum in: Cell Rep. 2016 Nov 15;17 (8):2161.

10.

Gestural Communication and Mating Tactics in Wild Chimpanzees.

Roberts AI, Roberts SG.

PLoS One. 2015 Nov 4;10(11):e0139683. doi: 10.1371/journal.pone.0139683. eCollection 2015.

11.

Histone deacetylase inhibitors prevent activation-induced cell death and promote anti-tumor immunity.

Cao K, Wang G, Li W, Zhang L, Wang R, Huang Y, Du L, Jiang J, Wu C, He X, Roberts AI, Li F, Rabson AB, Wang Y, Shi Y.

Oncogene. 2015 Dec 3;34(49):5960-70. doi: 10.1038/onc.2015.46. Epub 2015 Mar 9.

12.

Mesenchymal stem cells prevent restraint stress-induced lymphocyte depletion via interleukin-4.

Cao G, Yang Q, Zhang S, Xu C, Roberts AI, Wang Y, Shi Y.

Brain Behav Immun. 2014 May;38:125-32. doi: 10.1016/j.bbi.2014.01.013. Epub 2014 Jan 27.

PMID:
24480719
13.

The interaction between mesenchymal stem cells and steroids during inflammation.

Chen X, Gan Y, Li W, Su J, Zhang Y, Huang Y, Roberts AI, Han Y, Li J, Wang Y, Shi Y.

Cell Death Dis. 2014 Jan 23;5:e1009. doi: 10.1038/cddis.2013.537.

14.

Mesenchymal stem cells use IDO to regulate immunity in tumor microenvironment.

Ling W, Zhang J, Yuan Z, Ren G, Zhang L, Chen X, Rabson AB, Roberts AI, Wang Y, Shi Y.

Cancer Res. 2014 Mar 1;74(5):1576-87. doi: 10.1158/0008-5472.CAN-13-1656. Epub 2014 Jan 22.

15.

Chimpanzees modify intentional gestures to coordinate a search for hidden food.

Roberts AI, Vick SJ, Roberts SG, Menzel CR.

Nat Commun. 2014;5:3088. doi: 10.1038/ncomms4088.

16.

Phylogenetic distinction of iNOS and IDO function in mesenchymal stem cell-mediated immunosuppression in mammalian species.

Su J, Chen X, Huang Y, Li W, Li J, Cao K, Cao G, Zhang L, Li F, Roberts AI, Kang H, Yu P, Ren G, Ji W, Wang Y, Shi Y.

Cell Death Differ. 2014 Mar;21(3):388-96. doi: 10.1038/cdd.2013.149. Epub 2013 Oct 25.

17.

An osteopontin-integrin interaction plays a critical role in directing adipogenesis and osteogenesis by mesenchymal stem cells.

Chen Q, Shou P, Zhang L, Xu C, Zheng C, Han Y, Li W, Huang Y, Zhang X, Shao C, Roberts AI, Rabson AB, Ren G, Zhang Y, Wang Y, Denhardt DT, Shi Y.

Stem Cells. 2014 Feb;32(2):327-37. doi: 10.1002/stem.1567.

18.

A novel subset of helper T cells promotes immune responses by secreting GM-CSF.

Zhang J, Roberts AI, Liu C, Ren G, Xu G, Zhang L, Devadas S, Shi Y.

Cell Death Differ. 2013 Dec;20(12):1731-41. doi: 10.1038/cdd.2013.130. Epub 2013 Sep 27.

19.

The repertoire and intentionality of gestural communication in wild chimpanzees.

Roberts AI, Roberts SG, Vick SJ.

Anim Cogn. 2014 Mar;17(2):317-36. doi: 10.1007/s10071-013-0664-5. Epub 2013 Sep 3.

PMID:
23999801
20.

p53 regulates mesenchymal stem cell-mediated tumor suppression in a tumor microenvironment through immune modulation.

Huang Y, Yu P, Li W, Ren G, Roberts AI, Cao W, Zhang X, Su J, Chen X, Chen Q, Shou P, Xu C, Du L, Lin L, Xie N, Zhang L, Wang Y, Shi Y.

Oncogene. 2014 Jul 17;33(29):3830-8. doi: 10.1038/onc.2013.355. Epub 2013 Aug 26.

PMID:
23975435
21.

CCR2-dependent recruitment of macrophages by tumor-educated mesenchymal stromal cells promotes tumor development and is mimicked by TNF╬▒.

Ren G, Zhao X, Wang Y, Zhang X, Chen X, Xu C, Yuan ZR, Roberts AI, Zhang L, Zheng B, Wen T, Han Y, Rabson AB, Tischfield JA, Shao C, Shi Y.

Cell Stem Cell. 2012 Dec 7;11(6):812-24. doi: 10.1016/j.stem.2012.08.013. Epub 2012 Nov 15.

22.

Communicative intentions in wild chimpanzees: persistence and elaboration in gestural signalling.

Roberts AI, Vick SJ, Buchanan-Smith HM.

Anim Cogn. 2013 Mar;16(2):187-96. doi: 10.1007/s10071-012-0563-1. Epub 2012 Sep 29.

PMID:
23053796
23.

Mesenchymal stem cells: a double-edged sword in regulating immune responses.

Li W, Ren G, Huang Y, Su J, Han Y, Li J, Chen X, Cao K, Chen Q, Shou P, Zhang L, Yuan ZR, Roberts AI, Shi S, Le AD, Shi Y.

Cell Death Differ. 2012 Sep;19(9):1505-13. doi: 10.1038/cdd.2012.26. Epub 2012 Mar 16.

24.

How mesenchymal stem cells interact with tissue immune responses.

Shi Y, Su J, Roberts AI, Shou P, Rabson AB, Ren G.

Trends Immunol. 2012 Mar;33(3):136-43. doi: 10.1016/j.it.2011.11.004. Epub 2012 Jan 7. Review.

25.

Adhesion molecules: key players in Mesenchymal stem cell-mediated immunosuppression.

Ren G, Roberts AI, Shi Y.

Cell Adh Migr. 2011 Jan-Feb;5(1):20-2. doi: 10.4161/cam.5.1.13491. Epub 2011 Jan 1.

26.

Immune activation induces immortalization of HTLV-1 LTR-Tax transgenic CD4+ T cells.

Swaims AY, Khani F, Zhang Y, Roberts AI, Devadas S, Shi Y, Rabson AB.

Blood. 2010 Oct 21;116(16):2994-3003. doi: 10.1182/blood-2009-07-231050. Epub 2010 Jul 15.

27.

Inflammatory cytokine-induced intercellular adhesion molecule-1 and vascular cell adhesion molecule-1 in mesenchymal stem cells are critical for immunosuppression.

Ren G, Zhao X, Zhang L, Zhang J, L'Huillier A, Ling W, Roberts AI, Le AD, Shi S, Shao C, Shi Y.

J Immunol. 2010 Mar 1;184(5):2321-8. doi: 10.4049/jimmunol.0902023. Epub 2010 Feb 3.

28.

Transforming growth factor beta is dispensable for the molecular orchestration of Th17 cell differentiation.

Das J, Ren G, Zhang L, Roberts AI, Zhao X, Bothwell AL, Van Kaer L, Shi Y, Das G.

J Exp Med. 2009 Oct 26;206(11):2407-16. doi: 10.1084/jem.20082286. Epub 2009 Sep 28. Erratum in: J Exp Med. 2009 Dec 21;206(13):3157.

29.

Species variation in the mechanisms of mesenchymal stem cell-mediated immunosuppression.

Ren G, Su J, Zhang L, Zhao X, Ling W, L'huillie A, Zhang J, Lu Y, Roberts AI, Ji W, Zhang H, Rabson AB, Shi Y.

Stem Cells. 2009 Aug;27(8):1954-62. doi: 10.1002/stem.118.

30.
31.

Apoptotic cells induce immunosuppression through dendritic cells: critical roles of IFN-gamma and nitric oxide.

Ren G, Su J, Zhao X, Zhang L, Zhang J, Roberts AI, Zhang H, Das G, Shi Y.

J Immunol. 2008 Sep 1;181(5):3277-84.

32.

Th17 cells undergo Fas-mediated activation-induced cell death independent of IFN-gamma.

Zhang Y, Xu G, Zhang L, Roberts AI, Shi Y.

J Immunol. 2008 Jul 1;181(1):190-6.

33.

Mesenchymal stem cell-mediated immunosuppression occurs via concerted action of chemokines and nitric oxide.

Ren G, Zhang L, Zhao X, Xu G, Zhang Y, Roberts AI, Zhao RC, Shi Y.

Cell Stem Cell. 2008 Feb 7;2(2):141-50. doi: 10.1016/j.stem.2007.11.014.

34.

Dying T lymphocytes call for the death of tumor cells.

Shi Y, Roberts AI, Sun E.

Cell Res. 2006 Aug;16(8):679-80. No abstract available.

35.

Granzyme B is critical for T cell receptor-induced cell death of type 2 helper T cells.

Devadas S, Das J, Liu C, Zhang L, Roberts AI, Pan Z, Moore PA, Das G, Shi Y.

Immunity. 2006 Aug;25(2):237-47. Epub 2006 Aug 10.

36.

Granulocyte-macrophage colony-stimulating factor (GM-CSF) and T-cell responses: what we do and don't know.

Shi Y, Liu CH, Roberts AI, Das J, Xu G, Ren G, Zhang Y, Zhang L, Yuan ZR, Tan HS, Das G, Devadas S.

Cell Res. 2006 Feb;16(2):126-33. Review.

37.

Allograft tolerance induced by donor apoptotic lymphocytes requires phagocytosis in the recipient.

Sun E, Gao Y, Chen J, Roberts AI, Wang X, Chen Z, Shi Y.

Cell Death Differ. 2004 Dec;11(12):1258-64.

38.

Lymphocyte reduction induced by hindlimb unloading: distinct mechanisms in the spleen and thymus.

Wei LX, Zhou JN, Roberts AI, Shi YF.

Cell Res. 2003 Dec;13(6):465-71.

39.

The role of activation-induced cell death in the differentiation of T-helper-cell subsets.

Roberts AI, Devadas S, Zhang X, Zhang L, Keegan A, Greeneltch K, Solomon J, Wei L, Das J, Sun E, Liu C, Yuan Z, Zhou JN, Shi Y.

Immunol Res. 2003;28(3):285-93. Review.

PMID:
14713720
40.

TCR specificity dictates CD94/NKG2A expression by human CTL.

Jabri B, Selby JM, Negulescu H, Lee L, Roberts AI, Beavis A, Lopez-Botet M, Ebert EC, Winchester RJ.

Immunity. 2002 Oct;17(4):487-99. Erratum in: Immunity 2002 Dec;17(6): 835.

41.

NKG2D receptors induced by IL-15 costimulate CD28-negative effector CTL in the tissue microenvironment.

Roberts AI, Lee L, Schwarz E, Groh V, Spies T, Ebert EC, Jabri B.

J Immunol. 2001 Nov 15;167(10):5527-30.

42.
43.

Staphylococcal enterotoxin B induces potent cytotoxic activity by intraepithelial lymphocytes.

Roberts AI, Blumberg RS, Christ AD, Brolin RE, Ebert EC.

Immunology. 2000 Oct;101(2):185-90.

44.

Lymphocyte CC chemokine receptor 9 and epithelial thymus-expressed chemokine (TECK) expression distinguish the small intestinal immune compartment: Epithelial expression of tissue-specific chemokines as an organizing principle in regional immunity.

Kunkel EJ, Campbell JJ, Haraldsen G, Pan J, Boisvert J, Roberts AI, Ebert EC, Vierra MA, Goodman SB, Genovese MC, Wardlaw AJ, Greenberg HB, Parker CM, Butcher EC, Andrew DP, Agace WW.

J Exp Med. 2000 Sep 4;192(5):761-8.

45.

Selective expansion of intraepithelial lymphocytes expressing the HLA-E-specific natural killer receptor CD94 in celiac disease.

Jabri B, de Serre NP, Cellier C, Evans K, Gache C, Carvalho C, Mougenot JF, Allez M, Jian R, Desreumaux P, Colombel JF, Matuchansky C, Cugnenc H, Lopez-Botet M, Vivier E, Moretta A, Roberts AI, Ebert EC, Guy-Grand D, Brousse N, Schmitz J, Cerf-Bensussan N.

Gastroenterology. 2000 May;118(5):867-79.

PMID:
10784586
46.

Constitutive expression of stromal derived factor-1 by mucosal epithelia and its role in HIV transmission and propagation.

Agace WW, Amara A, Roberts AI, Pablos JL, Thelen S, Uguccioni M, Li XY, Marsal J, Arenzana-Seisdedos F, Delaunay T, Ebert EC, Moser B, Parker CM.

Curr Biol. 2000 Mar 23;10(6):325-8.

47.

Human intestinal lamina propria and intraepithelial lymphocytes express receptors specific for chemokines induced by inflammation.

Agace WW, Roberts AI, Wu L, Greineder C, Ebert EC, Parker CM.

Eur J Immunol. 2000 Mar;30(3):819-26.

48.

Human G protein-coupled receptor GPR-9-6/CC chemokine receptor 9 is selectively expressed on intestinal homing T lymphocytes, mucosal lymphocytes, and thymocytes and is required for thymus-expressed chemokine-mediated chemotaxis.

Zabel BA, Agace WW, Campbell JJ, Heath HM, Parent D, Roberts AI, Ebert EC, Kassam N, Qin S, Zovko M, LaRosa GJ, Yang LL, Soler D, Butcher EC, Ponath PD, Parker CM, Andrew DP.

J Exp Med. 1999 Nov 1;190(9):1241-56.

49.
50.

Mesenchymal cells stimulate human intestinal intraepithelial lymphocytes.

Roberts AI, Nadler SC, Ebert EC.

Gastroenterology. 1997 Jul;113(1):144-50.

PMID:
9207272

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