Cloning and expression of equine NF-kB2

Mirhosseini, Negin

15 May 2009

Equine infectious anemia virus (EIAV) is a macrophage-tropic retrovirus that causes persistent disease in horses and ponies. In addition to its structural proteins, EIAV encodes four regulatory/accessory genes, tat, rev, ttm, and S2. It has been documented EIAV S2 gene expression is essential for disease expression of EIAV. Using a yeast two-hybrid assay, it was shown that S2 protein interacts with human NF-KB2. NF-KB2 plays a key role in the alternative or non-canonical NF-KB pathway. In order to determine if the interaction of S2 with NF-KB2 might be relevant to equine disease, a cDNA representing full length equine NF-KB2 was generated in our laboratory using PCR and rapid amplification of cDNA ends. To our knowledge this is the first time that equine NF-KB2 cDNAs have been recovered and characterized. The sequence of equine NF-KB2 was 95% homologous to human overall, however a major difference was found in the ankyrin repeat region where protein-protein interactions occur. Two splice variants of equine NF-KB2 were found that correspond to splice variants of human NF- KB2. We tested the interaction of EIAV S2 and equine NF-KB2 using the yeast two hybrid system (Y2H) and co-immunoprecipitation. Unfortunately we were not able to detect an interaction between EIAV S2 and equine NF-KB2 in either system. Despite this result, NF-KB2 is an important component in the immune response so we examined its expression in equine macrophages. Moreover we were interested to know if EIAV might affect expression levels of equine NF-KB2, as NF-KB2 is a target of other viruses. Hence, the expression level of equine NF-KB2 was measured in uninfected and infected primary equine monocyte- derived macrophage (eMDM). Using quantitative PCR we determined that equine NF-KB2 gene expression is decreased in eMDM after 3 days post plating, about the time that monocytes start to differentiate into mature macrophages. However EIAV infection of eMDM upregulated the expression level of NF-KB2.

EIAV S2

NF-KB2

Alternative Nf-kb Signaling in Atherogenesis

Dühring, Sarah

30 July 2014

Inflammatory processes mark all stages of atherogenesis. One of the key regulators of inflammation is the transcription factor nuclear factor kappa B (Nf-kb). Nf-kb is the general name for a whole family of dimeric transcription factors. One can distinguish between a classical and an alternative pathway with Rela/p50 (Nf-kb1) and Relb/p52 (Nf-kb2) representing the terminal transcription factors, respectively. Classical Nf-kb1 signaling has been associated with atherosclerotic lesion development many times, mainly because of its regulation of many pro-inflammatory proteins with an established role in atherogenesis. Recent studies provided evidence of crosstalk between classical Nf-kb1 and alternative Nf-kb2 signaling, implicating a potential role for Nf-kb2 in atherogenesis. The aim of the present study was to investigate the influence of Nf-kb2 on atherosclerotic lesion development in a knockout mouse model. Nfkb2 knockout (Nfkb2-/-) mice were generated on two different atherosclerosis sensible backgrounds, the Apoe- and Ldlr- deficient background. Quantification of atherosclerotic lesion development showed, that Nfkb2-/- mice developed significantly more atherosclerosis at the brachiocephalic artery than wild type controls, indicating a protective effect of Nf-kb2 on atherogenesis. Further expression analyses in bone marrow-derived macrophages (BMDM) revealed highly significant upregulation of matrix metalloproteinase 9 (Mmp9) in Nfkb2-/- mice. Overexpression of Mmp9 was associated with enhanced macrophage migration across extracellular matrix in vitro and an inflammatory plaque phenotype with advanced, macrophage-rich lesions. Accordingly, increased Mmp9 expression in Nfkb2-/- macrophages might have contributed to enhanced lesion development in these mice.

Atherosklerose

Nf-kb2

Makrophage

p100

Mmp-9

Nf-kb2

p100

Atherosclerosis

Mmp-9

Macrophage

ddc:610

Alternative Nf-kb Signaling in Atherogenesis

Dühring, Sarah

16 July 2014

Inflammatory processes mark all stages of atherogenesis. One of the key regulators of inflammation is the transcription factor nuclear factor kappa B (Nf-kb). Nf-kb is the general name for a whole family of dimeric transcription factors. One can distinguish between a classical and an alternative pathway with Rela/p50 (Nf-kb1) and Relb/p52 (Nf-kb2) representing the terminal transcription factors, respectively. Classical Nf-kb1 signaling has been associated with atherosclerotic lesion development many times, mainly because of its regulation of many pro-inflammatory proteins with an established role in atherogenesis. Recent studies provided evidence of crosstalk between classical Nf-kb1 and alternative Nf-kb2 signaling, implicating a potential role for Nf-kb2 in atherogenesis. The aim of the present study was to investigate the influence of Nf-kb2 on atherosclerotic lesion development in a knockout mouse model. Nfkb2 knockout (Nfkb2-/-) mice were generated on two different atherosclerosis sensible backgrounds, the Apoe- and Ldlr- deficient background. Quantification of atherosclerotic lesion development showed, that Nfkb2-/- mice developed significantly more atherosclerosis at the brachiocephalic artery than wild type controls, indicating a protective effect of Nf-kb2 on atherogenesis. Further expression analyses in bone marrow-derived macrophages (BMDM) revealed highly significant upregulation of matrix metalloproteinase 9 (Mmp9) in Nfkb2-/- mice. Overexpression of Mmp9 was associated with enhanced macrophage migration across extracellular matrix in vitro and an inflammatory plaque phenotype with advanced, macrophage-rich lesions. Accordingly, increased Mmp9 expression in Nfkb2-/- macrophages might have contributed to enhanced lesion development in these mice.

info:eu-repo/classification/ddc/610

ddc:610

Characterization of the Physiologic Function of NF-κB2 p100

Yang, Liqun

January 2009

No description available.

Animal Diseases

Animals

Cellular Biology

Molecular Biology

NF-kB2

lymphoid organs

lung inflammation

germinal center

B cells

follieular dentric cell