|LPS-induced upregulation of SHIP is essential for endotoxin tolerance|
LM Sly, MJ Rauh, J Kalesnikoff, CH Song, G Krystal
Immunity 21 (2), 227-239, 2004
|The 19-kDa Mycobacterium tuberculosis protein induces macrophage apoptosis through Toll-like receptor-2|
M López, LM Sly, Y Luu, D Young, H Cooper, NE Reiner
The Journal of Immunology 170 (5), 2409-2416, 2003
|Survival of Mycobacterium tuberculosis in host macrophages involves resistance to apoptosis dependent upon induction of antiapoptotic Bcl-2 family member Mcl-1|
LM Sly, SM Hingley-Wilson, NE Reiner, WR McMaster
The Journal of Immunology 170 (1), 430-437, 2003
|SHIP represses the generation of alternatively activated macrophages|
MJ Rauh, V Ho, C Pereira, A Sham, LM Sly, V Lam, L Huxham, ...
Immunity 23 (4), 361-374, 2005
|1α, 25-Dihydroxyvitamin D3-induced monocyte antimycobacterial activity is regulated by phosphatidylinositol 3-kinase and mediated by the NADPH-dependent phagocyte oxidase|
LM Sly, M Lopez, WM Nauseef, NE Reiner
Journal of Biological Chemistry 276 (38), 35482-35493, 2001
|1α, 25-dihydroxyvitamin D3–induced myeloid cell differentiation is regulated by a vitamin D receptor–phosphatidylinositol 3-kinase signaling complex|
Z Hmama, D Nandan, L Sly, KL Knutson, P Herrera-Velit, NE Reiner
Journal of Experimental Medicine 190 (11), 1583-1594, 1999
|Mutant IDH1 promotes leukemogenesis in vivo and can be specifically targeted in human AML|
A Chaturvedi, MMA Cruz, N Jyotsana, A Sharma, H Yun, K Görlich, ...
Blood 122 (16), 2877-2887, 2013
|SHIP, SHIP2, and PTEN activities are regulated in vivo by modulation of their protein levels: SHIP is up-regulated in macrophages and mast cells by lipopolysaccharide|
LM Sly, MJ Rauh, J Kalesnikoff, T Büchse, G Krystal
Experimental hematology 31 (12), 1170-1181, 2003
|The role of SHIP in cytokine-induced signaling|
J Kalesnikoff, LM Sly, MR Hughes, T Büchse, MJ Rauh, LP Cao, V Lam, ...
Reviews of physiology, biochemistry and pharmacology, 87-103, 2003
|A low carbohydrate, high protein diet slows tumor growth and prevents cancer initiation|
VW Ho, K Leung, A Hsu, B Luk, J Lai, SY Shen, AI Minchinton, ...
Cancer research 71 (13), 4484-4493, 2011
|Derivation and characterization of murine alternatively activated (M2) macrophages|
VWH Ho, LM Sly
Macrophages and Dendritic Cells, 173-185, 2009
|SHIP represses the generation of IL-3-induced M2 macrophages by inhibiting IL-4 production from basophils|
E Kuroda, V Ho, J Ruschmann, F Antignano, M Hamilton, MJ Rauh, ...
The Journal of Immunology 183 (6), 3652-3660, 2009
|Modeling the functional heterogeneity of leukemia stem cells: role of STAT5 in leukemia stem cell self-renewal|
M Heuser, LM Sly, B Argiropoulos, F Kuchenbauer, C Lai, A Weng, ...
Blood 114 (19), 3983-3993, 2009
|The role of SHIP1 in macrophage programming and activation|
MJ Rauh, LM Sly, J Kalesnikoff, MR Hughes, LP Cao, V Lam, G Krystal
Biochemical Society Transactions 32 (5), 785-788, 2004
|Generation and characterization of murine alternatively activated macrophages|
SB Weisser, KW McLarren, E Kuroda, LM Sly
Basic Cell Culture Protocols, 225-239, 2013
|SHIP regulates the reciprocal development of T regulatory and Th17 cells|
NR Locke, SJ Patterson, MJ Hamilton, LM Sly, G Krystal, MK Levings
The Journal of Immunology 183 (2), 975-983, 2009
|Role of Src homology 2-containing-inositol 5′-phosphatase (SHIP) in mast cells and macrophages|
MJ Rauh, J Kalesnikoff, M Hughes, L Sly, V Lam, G Krystal
Biochemical Society Transactions 31 (1), 286-291, 2003
|Depletion and reconstitution of macrophages in mice|
SB Weisser, N van Rooijen, LM Sly
JoVE (Journal of Visualized Experiments), e4105, 2012
|Alternative activation of macrophages by IL‐4 requires SHIP degradation|
SB Weisser, KW McLarren, N Voglmaier, CJ van Netten‐Thomas, A Antov, ...
European journal of immunology 41 (6), 1742-1753, 2011
|Combined immunodeficiency associated with homozygous MALT1 mutations|
TSE McKinnon ML, Rozmus J, Fung SY, Hirschfeld AF, Del Bel KL, Thomas L ...
Journal of Allergy and Clinical Immunology 133 (5), 1458-62, 2014