Genes encoding TNF, LTalpha and LTbeta, (the two components of the membrane-bound lymphotoxin) are closely linked at the telomeric border of the class II region of the MHC, and they show different pattern of regulation of expression. We are dissecting regulatory mechanisms controlling TNF inducible expression in macrophages/monocytes. We have identified two components in transcriptional activation of TNF gene by LPS: i.e. initiation and elongation (processivity) and we have determined sequence requirements for activation of the human TNF promoter by LPS. We have continued our genetic studies to address the possibility that predisposition to autoimmune and infectious disease may be linked to variation at the TNF/LT locus. Although we detect linkage of TNF genotypes to IDDM and sepsis (which may be secondary, due to linkage disequilibrium in the MHC), we are unable to correlate promoter activity with natural sequence variations in the TNF promoter (such as -308 polymorphism known to be linked to predisposition to cerebral malaria). At present we are determining requirements for TNF activation by malaria toxin. We have cloned and characterized the murine LT gene and determined its pattern of expression in vitro and in situ. We have shown that cooperation between transcriptional factors of three families is essential for inducible transcription of this gene in a T cell line. Finally, as a direct approach to assess the biological function of the cytokines of the TNF/LT subfamily, we have initiated an international collaboration aimed at generating strains of mice with targeted deletions of TNF/LT genes in conventional as well as in inducible fashion. During last year we have obtained and initially characterized mice with double inactivation of LTalpha/LTbeta genes and with deletion of the entire TNF/LT locus (triple knock-out.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Intramural Research (Z01)
Project #
1Z01BC009371-05
Application #
2463791
Study Section
Special Emphasis Panel (LMI)
Project Start
Project End
Budget Start
Budget End
Support Year
5
Fiscal Year
1996
Total Cost
Indirect Cost
Name
National Cancer Institute Division of Basic Sciences
Department
Type
DUNS #
City
State
Country
United States
Zip Code
Kuprash, Dmitry V; Tumanov, Alexei V; Liepinsh, Dmitry J et al. (2005) Novel tumor necrosis factor-knockout mice that lack Peyer's patches. Eur J Immunol 35:1592-600
Grivennikov, Sergei I; Tumanov, Alexei V; Liepinsh, Dmitry J et al. (2005) Distinct and nonredundant in vivo functions of TNF produced by t cells and macrophages/neutrophils: protective and deleterious effects. Immunity 22:93-104
Shakhov, Alexander N; Rybtsov, Stanislav; Tumanov, Alexei V et al. (2004) SMUCKLER/TIM4 is a distinct member of TIM family expressed by stromal cells of secondary lymphoid tissues and associated with lymphotoxin signaling. Eur J Immunol 34:494-503
Tumanov, Alexei V; Kuprash, Dmitry V; Mach, Julie A et al. (2004) Lymphotoxin and TNF produced by B cells are dispensable for maintenance of the follicle-associated epithelium but are required for development of lymphoid follicles in the Peyer's patches. J Immunol 173:86-91
Abe, Koichiro; Yarovinsky, Felix O; Murakami, Takaya et al. (2003) Distinct contributions of TNF and LT cytokines to the development of dendritic cells in vitro and their recruitment in vivo. Blood 101:1477-83
Tumanov, Alexei V; Kuprash, Dmitry V; Nedospasov, Sergei A (2003) The role of lymphotoxin in development and maintenance of secondary lymphoid tissues. Cytokine Growth Factor Rev 14:275-88
Tumanov, Alexei V; Grivennikov, Sergei I; Shakhov, Alexander N et al. (2003) Dissecting the role of lymphotoxin in lymphoid organs by conditional targeting. Immunol Rev 195:106-16
Kuprash, D V; Alimzhanov, M B; Tumanov, A V et al. (1999) TNF and lymphotoxin beta cooperate in the maintenance of secondary lymphoid tissue microarchitecture but not in the development of lymph nodes. J Immunol 163:6575-80
Endres, R; Alimzhanov, M B; Plitz, T et al. (1999) Mature follicular dendritic cell networks depend on expression of lymphotoxin beta receptor by radioresistant stromal cells and of lymphotoxin beta and tumor necrosis factor by B cells. J Exp Med 189:159-68
Baer, M; Nedospasov, S; Johnson, P F (1999) Attenuation of tumor necrosis factor alpha gene transcription in macrophages by an autocrine factor. Cold Spring Harb Symp Quant Biol 64:437-44

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