Your search keyword '"Seijkens, Tom T.P."' showing total 3 results

1. The CD40-CD40L Dyad as Immunotherapeutic Target in Cardiovascular Disease

Author

Bosmans, Laura A., Bosch, Lena, Kusters, Pascal J.H., Lutgens, Esther, and Seijkens, Tom T.P.

Published

2021

2. Targeting CD40-Induced TRAF6 Signaling in Macrophages Reduces Atherosclerosis.

Author

Seijkens, Tom T.P., van Tiel, Claudia M., Kusters, Pascal J.H., Atzler, Dorothee, Soehnlein, Oliver, Zarzycka, Barbara, Aarts, Suzanne A.B.M., Lameijer, Marnix, Gijbels, Marion J., Beckers, Linda, den Toom, Myrthe, Slütter, Bram, Kuiper, Johan, Duchene, Johan, Aslani, Maria, Megens, Remco T.A., van ‘t Veer, Cornelis, Kooij, Gijs, Schrijver, Roy, and Hoeksema, Marten A.

Subjects

*ATHEROSCLEROSIS, *MACROPHAGES, *ATHEROSCLEROTIC plaque, *TUMOR necrosis factors, *CYTOKINES, *ATHEROSCLEROSIS prevention, *AMINES, *ANIMAL experimentation, *BIOLOGICAL models, *CARRIER proteins, *CELL culture, *CELL motility, *CELLULAR signal transduction, *COMPARATIVE studies, *GLYCOPROTEINS, *KETONES, *RESEARCH methodology, *MEDICAL cooperation, *MICE, *MONOCYTES, *RESEARCH, *EVALUATION research, *CHEMICAL inhibitors

Abstract

Background: Disrupting the costimulatory CD40-CD40L dyad reduces atherosclerosis, but can result in immune suppression. The authors recently identified small molecule inhibitors that block the interaction between CD40 and tumor necrosis factor receptor-associated factor (TRAF) 6 (TRAF-STOPs), while leaving CD40-TRAF2/3/5 interactions intact, thereby preserving CD40-mediated immunity.Objectives: This study evaluates the potential of TRAF-STOP treatment in atherosclerosis.Methods: The effects of TRAF-STOPs on atherosclerosis were investigated in apolipoprotein E deficient (Apoe-/-) mice. Recombinant high-density lipoprotein (rHDL) nanoparticles were used to target TRAF-STOPs to macrophages.Results: TRAF-STOP treatment of young Apoe-/- mice reduced atherosclerosis by reducing CD40 and integrin expression in classical monocytes, thereby hampering monocyte recruitment. When Apoe-/- mice with established atherosclerosis were treated with TRAF-STOPs, plaque progression was halted, and plaques contained an increase in collagen, developed small necrotic cores, and contained only a few immune cells. TRAF-STOP treatment did not impair "classical" immune pathways of CD40, including T-cell proliferation and costimulation, Ig isotype switching, or germinal center formation, but reduced CD40 and β2-integrin expression in inflammatory monocytes. In vitro testing and transcriptional profiling showed that TRAF-STOPs are effective in reducing macrophage migration and activation, which could be attributed to reduced phosphorylation of signaling intermediates of the canonical NF-κB pathway. To target TRAF-STOPs specifically to macrophages, TRAF-STOP 6877002 was incorporated into rHDL nanoparticles. Six weeks of rHDL-6877002 treatment attenuated the initiation of atherosclerosis in Apoe-/- mice.Conclusions: TRAF-STOPs can overcome the current limitations of long-term CD40 inhibition in atherosclerosis and have the potential to become a future therapeutic for atherosclerosis. [ABSTRACT FROM AUTHOR]

Published

2018

3. Short-term regulation of hematopoiesis by lipoprotein(a) results in the production of pro-inflammatory monocytes.

Author

Schnitzler, Johan G., Poels, Kikkie, Stiekema, Lotte C.A., Yeang, Calvin, Tsimikas, Sotirios, Kroon, Jeffrey, Stroes, Erik S.G., Lutgens, Esther, and Seijkens, Tom T.P.

Subjects

*HEMATOPOIETIC stem cells, *BONE marrow, *INFLAMMATION, *TRANSGENIC mice, *MONOCYTES

Abstract

Lipoproteins are important regulators of hematopoietic stem and progenitor cell (HSPC) biology, predominantly affecting myelopoiesis. Since myeloid cells, including monocytes and macrophages, promote the inflammatory response that propagates atherosclerosis, it is of interest whether the atherogenic low-density lipoprotein (LDL)-like particle lipoprotein(a) [Lp(a)] contributes to atherogenesis via stimulating myelopoiesis. To assess the effects of Lp(a)-priming on long-term HSPC behavior we transplanted BM of Lp(a) transgenic mice, that had been exposed to elevated levels of Lp(a), into lethally-irradiated C57Bl6 mice and hematopoietic reconstitution was analyzed. No differences in HSPC populations or circulating myeloid cells were detected ten weeks after transplantation. Likewise, in vitro stimulation of C57Bl6 BM cells for 24 h with Lp(a) did not affect colony formation, total cell numbers or myeloid populations 7 days later. To assess the effects of elevated levels of Lp(a) on myelopoiesis, C57Bl6 bone marrow (BM) cells were stimulated with lp(a) for 24 h, and a marked increase in granulocyte-monocyte progenitors, pro-inflammatory Ly6high monocytes and macrophages was observed. Seven days of continuous exposure to Lp(a) increased colony formation and enhanced the formation of pro-inflammatory monocytes and macrophages. Antibody-mediated neutralization of oxidized phospholipids abolished the Lp(a)-induced effects on myelopoiesis. Lp(a) enhances the production of inflammatory monocytes at the bone marrow level but does not induce cell-intrinsic long-term priming of HSPCs. Given the short-term and direct nature of this effect, we postulate that Lp(a)-lowering treatment has the capacity to rapidly revert this multi-level inflammatory response. • Lp(a) does not induce intrinsic priming of hematopoietic stem and progenitor cells. • Lp(a) enhances the production of inflammatory monocytes at the bone marrow level. • Lp(a)-lowering treatment may rapidly revert this multi-level inflammatory response. [ABSTRACT FROM AUTHOR]

Published

2020