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  1. 1.   The macrophage in HIV-1 infection: From activation to deactivation?
  2. Herbein, G.; Varin, A.
  3. Retrovirology. 2010, Apr; 7: 15.
  1. 2.   Monocyte heterogeneity underlying phenotypic changes in monocytes according to SIV disease stage
  2. Kim, W. K.; Sun, Y.; Do, H.; Autissier, P.; Halpern, E. F.; Piatak, M.; Lifson, J. D.; Burdo, T. H.; McGrath, M. S.; Williams, K.
  3. Journal of Leukocyte Biology. 2010, Apr; 87(4): 557-567.
  1. 3.   Regulation of Cell Growth during Serum Starvation and Bacterial Survival in Macrophages by the Bifunctional Enzyme SpoT in Helicobacter pylori
  2. Zhou, Y. N.; Coleman, W. G.; Yang, Z. X.; Yang, Y.; Hodgson, N.; Chen, F.; Jin, D. J.
  3. Journal of Bacteriology. 2008 190(24): 8025-8032.
  1. 4.   F2L, a peptide derived from heme-binding protein, chemoattracts mouse neutrophils by specifically activating Fpr2, the low-affmity N-formylpeptide receptor
  2. Gao, J. L.; Guillabert, A.; Hu, J. Y.; Le, Y. Y.; Urizar, E.; Seligman, E.; Fang, K. J.; Yuan, X.; Imbault, V.; Communi, D.; Wang, J. M.; Parmentier, M.; Murphy, P. M.; Migeotte, F.
  3. Journal of Immunology. 2007, Feb; 178(3): 1450-1456.
  1. 5.   Functional genomics of innate host defense molecules in normal human monocytes in response to Aspergillus fumigatus
  2. Cortez, K. J.; Lyman, C. A.; Kottilil, S.; Kim, H. S.; Roilides, E.; Yang, J.; Fullmer, B.; Lempicki, R.; Walsh, T. J.
  3. Infection and Immunity. 2006, Apr; 74(4): 2353-2365.
  1. 6.   Role of formyl peptide receptor-like 1 (FPRL1/FPR2) in mononuclear phagocyte responses in Alzheimer disease
  2. Iribarren, P.; Zhou, Y.; Hu, J. Y.; Le, Y. Y.; Wang, J. M.
  3. Immunologic Research. 2005 31(3): 165-176.
  1. 7.   Chemotaxis and calcium responses of phagocytes to formyl peptide receptor ligands is differentially regulated by cyclic ADP ribose
  2. Partida-Sanchez, S.; Iribarren, P.; Moreno-Garcia, M. E.; Gao, X. L.; Murphy, P. M.; Oppenheimer, N.; Wang, J. M.; Lund, F. E.
  3. Journal of Immunology. 2004 172(3): 1896-1906.
  1. 8.   Humanin, a newly identified neuroprotective factor, uses the g protein-coupled formylpeptide receptor-like-1 as a functional receptor
  2. Ying, G. G.; Iribarren, P.; Zhou, Y.; Gong, W. H.; Zhang, N.; Yu, Z. X.; Le, Y.; Cui, Y.; Wang, J. M.
  3. Journal of Immunology. 2004 172(11): 7078-7085.
  1. 9.   Identification of neutrophil granule protein cathepsin G as a novel chemotactic agonist for the G protein-coupled formyl peptide receptor
  2. Sun, R. H.; Iribarren, P.; Zhang, N.; Zhou, Y.; Gong, W. H.; Cho, E. H.; Lockett, S.; Chertov, O.; Bednar, F.; Rogers, T. J.; Oppenheim, J. J.; Wang, J. M.
  3. Journal of Immunology. 2004 173(1): 428-436.
  1. 10.   Cell-type-dependent targeting of human immunodeficiency virus type 1 assembly to the plasma membrane and the multivesicular body
  2. Ono, A.; Freed, E. O.
  3. Journal of Virology. 2004 78(3): 1552-1563.
  1. 11.   Temporin A, a frog antimicrobial peptide, uses human FPRL1/murine FPR2 as a receptor to chemoattract phagocytes
  2. Chen, Q.; Wade, D.; Kurosaka, K.; Oppenheim, J. J.; Yang, D.
  3. Faseb Journal. 2004 18(5, Suppl. S): A1147-A1147.
  1. 12.   Purified complexes of HIV-1 envelope glycoproteins with CD4 and CCR5(CXCR4): production, characterization and immunogenicity
  2. Xiao, X. D.; Phogat, S.; Shu, Y.; Phogat, A.; Chow, Y. H.; Wei, O. L.; Goldstein, H.; Broder, C. C.; Dimitrov, D. S.
  3. Vaccine. 2003 21(27-30): 4275-4284.
  1. 13.   Temporin/VesCP (T/V)-like antibiotic peptides, derived from frogs and wasps, induce migration of human monocytos and neutrophils
  2. Yang, D.; Chen, Q.; Oppenheim, J. J.; Kuusela, R.; Taylor, J. W.; Wade, D.
  3. Letters in Peptide Science. 2003 10(2): 99-110.
  1. 14.   Receptors for chemotactic formyl peptides as pharmacological targets
  2. Le, Y. Y.; Yang, Y. M.; Cui, Y. H.; Yazawa, H.; Gong, W. H.; Qiu, C. P.; Wang, J. M.
  3. International Immunopharmacology. 2002 2(1): 1-13.
  1. 15.   Pleiotropic roles of formyl peptide receptors
  2. Le, Y. Y.; Oppenheim, J. J.; Wang, J. M.
  3. Cytokine & Growth Factor Reviews. 2001 12(1): 91-105.
  1. 16.   Synthetic peptide MMK-1 is a highly specific chemotactic agonist for leukocyte FPRL1
  2. Hu, J. Y.; Le, Y. Y.; Gong, W. H.; Dunlop, N. M.; Gao, J. L.; Murphy, P. M.; Wang, J. M.
  3. Journal of Leukocyte Biology. 2001 70(1): 155-161.
  1. 17.   N-linked glycosylation of CXCR4 masks coreceptor function for CCR5-dependent human immunodeficiency virus type 1 isolates
  2. Chabot, D. J.; Chen, H.; Dimitrov, D. S.; Broder, C. C.
  3. Journal of Virology. 2000 74(9): 4404-4413.
  1. 18.   The HIV-1 cell entry inhibitor T-20 potently chemoattracts neutrophils by specifically activating the N-formylpeptide receptor
  2. Hartt, J. K.; Liang, T.; Sahagun-Ruiz, A.; Wang, J. M.; Gao, J. L.; Murphy, P. M.
  3. Biochemical and Biophysical Research Communications. 2000 272(3): 699-704.
  1. 19.   Activation of the chemotactic peptide receptor FPRL1 in monocytes phosphorylates the chemokine receptor CCR5 and attenuates cell responses to selected chemokines
  2. Shen, W. P.; Proost, P.; Li, B. Q.; Gong, W. H.; Le, Y. Y.; Sargeant, R.; Murphy, P. M.; Van Damme, J.; Wang, J. M.
  3. Biochemical and Biophysical Research Communications. 2000 272(1): 276-283.
  1. 20.   N36, a synthetic N-terminal heptad repeat domain of the HIV-1 envelope protein gp41, is an activator of human phagocytes
  2. Le, Y. Y.; Jiang, S.; Hu, J. Y.; Gong, W. H.; Su, S. B.; Dunlop, N. M.; Shen, W. P.; Li, B. Q.; Wang, J. M.
  3. Clinical Immunology. 2000 96(3): 236-242.
  1. 21.   Functional Role For the Myeloid Differentiation Antigen Cd14 in the Activation of Human Monocytes By Il-2
  2. Bosco, M. C.; Espinozadelgado, I.; Rowe, T. K.; Malabarba, M. G.; Longo, D. L.; Varesio, L.
  3. Journal of Immunology. 1997 159(6): 2922-2931.
  1. 22.   Differential Infection of Cd34(+) Cell-Derived Dendritic Cells and Monocytes With Lymphocyte-Tropic and Monocyte-Tropic Hiv-1 Strains
  2. Warren, M. K.; Rose, W. L.; Cone, J. L.; Rice, W. G.; Turpin, J. A.
  3. Journal of Immunology. 1997 158(10): 5035-5042.
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