CpG Inhibits Pro-B Cell Expansion through a Cathepsin B-Dependent Mechanism

Ana Inés Lalanne; Ignacio Moraga; Yi Hao; João Pedro Pereira; Nuno L. Alves; Nicholas D. Huntington; Antonio A. Freitas; Ana Cumano; Paulo Vieira

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CpG Inhibits Pro-B Cell Expansion through a Cathepsin B-Dependent Mechanism

Lalanne A
Moraga I
Hao Y
et al.

The Journal of Immunology (2010) 184(10) 5678-5685

DOI: 10.4049/jimmunol.0903854

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Abstract

TLR9 is expressed in cells of the innate immune system, as well as in B lymphocytes and their progenitors. We investigated the effect of the TLR9 ligand CpG DNA on the proliferation of pro-B cells. CpG DNA inhibits the proliferation of pro-B, but not pre-B, cells by inducing caspase-independent cell death through a pathway that requires the expression of cathepsin B. This pathway is operative in Rag-deficient mice carrying an SP6 transgene, in which B lymphopoiesis is compromised, to reduce the size of the B lymphocyte precursor compartments in the bone marrow. Thus, TLR9 signals can regulate B lymphopoiesis in vivo.

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Lalanne, A. I., Moraga, I., Hao, Y., Pereira, J. P., Alves, N. L., Huntington, N. D., … Vieira, P. (2010). CpG Inhibits Pro-B Cell Expansion through a Cathepsin B-Dependent Mechanism. The Journal of Immunology, 184(10), 5678–5685. https://doi.org/10.4049/jimmunol.0903854

CpG Inhibits Pro-B Cell Expansion through a Cathepsin B-Dependent Mechanism

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