about
Antigen-specific inhibition of CD8+ T cell response by immature myeloid cells in cancer is mediated by reactive oxygen species.Effect of tumor-derived cytokines and growth factors on differentiation and immune suppressive features of myeloid cells in cancerExpansion of CCR8(+) inflammatory myeloid cells in cancer patients with urothelial and renal carcinomas.Altered expression of 15-hydroxyprostaglandin dehydrogenase in tumor-infiltrated CD11b myeloid cells: a mechanism for immune evasion in cancer.Bcl-2 mediated modulation of vascularization in prostate cancer xenografts.Hyperactivation of STAT3 is involved in abnormal differentiation of dendritic cells in cancer.Enhanced 15-lipoxygenase activity and elevated eicosanoid production in kidney tumor microenvironment contribute to the inflammation and immune suppression.Calcium Oxalate Stone Fragment and Crystal Phagocytosis by Human Macrophages.Pivotal Advance: Tumor-mediated induction of myeloid-derived suppressor cells and M2-polarized macrophages by altering intracellular PGE₂ catabolism in myeloid cells.Identification of ROS using oxidized DCFDA and flow-cytometry.Oxidative stress regulates expression of VEGFR1 in myeloid cells: link to tumor-induced immune suppression in renal cell carcinoma.Tumor-associated macrophages mediate immunosuppression in the renal cancer microenvironment by activating the 15-lipoxygenase-2 pathwaySialoadhesin expression by bone marrow macrophages derived from Ehrlich-tumor-bearing miceInhibition of myeloid cell differentiation in cancer: the role of reactive oxygen speciesEffect of individual and combination treatment with cytokines on expression of sialoadhesin by bone marrow macrophagesSTAT1 signaling regulates tumor-associated macrophage-mediated T cell deletionCirculating and tumor-infiltrating myeloid cell subsets in patients with bladder cancerMechanisms of immune evasion in bladder cancer
P50
Q34287902-7A51F729-0077-42DD-BBFE-EA3A935C9825Q36597391-967428D8-FFFF-4E28-B125-D275DA058FBAQ36745552-4858B50C-5D0B-41E7-81A7-15A9EE82B67DQ39843070-4CFDB047-C99C-424B-88B0-834C784A19A1Q39901811-08D3C66B-9B22-498C-989A-102D75100A6DQ40605195-959E8472-661E-41B3-91A0-EC445C364F9AQ41872697-83C3935A-010E-4FA8-8087-AA1D9617DFABQ42284481-C189C0F0-5A90-419C-B500-FDA7FB67964CQ43001771-0EEE1C0A-63C6-481C-AE03-F5A47BB11E2CQ43194927-625E64F2-C37E-44F2-AF17-027FC0EC8365Q46529900-BA2BEAE1-DE5A-43E6-9F13-D84E76FFE14AQ56898526-628F4FB9-3408-48D9-9F03-ECE9FB7AE990Q73284801-40DA8DE1-1280-4F41-997C-C53C801CBFFBQ73719137-93CF39DD-4EFB-47B5-95AF-76B15CAD158BQ79314753-D5DB8D0E-9BCB-4C02-A4C1-F9011F8FF4D6Q81621902-A042C1CF-ECDB-4E6D-99EC-6B4732548DB0Q83823188-706CD2A4-7040-4BA3-9CBA-B1741CE942C6Q91769001-C4860CE4-5760-4C70-BFFF-490A8E9390AB
P50
description
researcher
@en
name
S Kusmartsev
@en
S Kusmartsev
@nl
type
label
S Kusmartsev
@en
S Kusmartsev
@nl
prefLabel
S Kusmartsev
@en
S Kusmartsev
@nl
P108
P106
P108
P31
P496
0000-0002-0837-8310