B-cell maturation and antibody responses in individuals carrying a mutated CD19 allele

Artaç, Hasibe; Reisli, İsmail; Kara, Reyhan; Pico-Knijnenburg, Ingrid; Çınar, Sezgi; Pekcan, Sevgi; Zijde, Cornelia M. Jol–van der; Tol, Maarten J.D. van; Bakker-Jonges, Liesbeth E.; Dongen, Jacques J. M. van; Burg, Mirjam van der; Zelm, Menno C. van

doi:10.1038/gene.2010.22

Cited by 31 publications

(20 citation statements)

References 31 publications

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“…All CD19-deficient patients and CD19-heterozygous carriers have been described (9, 23). The specific mutations in BTK have been previously reported in the following family members: XLA 022 (24) and XLA 596, XLA 796 (25).…”

Section: Methodsmentioning

confidence: 99%

CD19 controls Toll-like receptor 9 responses in human B cells

Morbach

Schickel

Cunningham‐Rundles

et al. 2016

Journal of Allergy and Clinical Immunology

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Background CD19 is a B-cell specific molecule that serves as a major co-stimulatory molecule for amplifying B cell receptor (BCR) responses. Bi-allelic CD19 gene mutations cause common variable immunodeficiency (CVID) in humans. BCR and TLR9 induced B-cell responses are impaired in most CVID patients. Objective We sought to analyze whether CD19 is required for TLR9 function in human B cells. Methods The expression of surface activation markers was assessed after anti-IgM or CpG stimulation using flow cytometry on B cells from patients with one or two defective CD19 alleles, which decrease or abrogate CD19 expression, respectively. The phosphorylation or interaction of signaling molecules was analyzed using phosphoflow cytometry, immunoblot or co-immunoprecipitation in CD19-deficient or control B cells and in a B cell line in which CD19 has been knocked-down using lentiviral transduced shRNA. Results B cells from individuals with one or two defective CD19 alleles showed defective upregulation in vitro of CD86, TACI and CD23 activation markers after TLR9 stimulation. TLR9 ligands normally induce via MYD88/PYK2/LYN complexes the phosphorylation of CD19, which allows the recruitment of PI3K and the phosphorylation of BTK and AKT in human B cells with a different kinetic than that of BCRs. In addition, inhibition of PI3K, AKT or BTK as well as BTK-deficiency also result in TLR9 activation defects in B cells similar to those in CD19 deficiency. Conclusion: CD19 is required for TLR9-induced B-cell activation. Hence, CD19/PI3K/AKT/BTK is an essential axis integrating BCRs and TLR9 signaling in human B cells.

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Section: Methodsmentioning

confidence: 99%

CD19 controls Toll-like receptor 9 responses in human B cells

Morbach

Schickel

Cunningham‐Rundles

et al. 2016

Journal of Allergy and Clinical Immunology

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“…In man, genetic defects in the CD19 or CD81 genes have been shown to result in an antibody deficiency syndrome [48,49,52,96]. B cells from CD19-deficient and CD81-deficient patients have impaired Ca 2?…”

Section: B Cell Activationmentioning

confidence: 99%

New frontiers of primary antibody deficiencies

Burg

Zelm

Dongen

2011

Cell. Mol. Life Sci.

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Primary antibody deficiencies (PAD) form the largest group of inherited disorders of the immune system. They are characterized by a marked reduction or absence of serum immunoglobulins (Ig) due to disturbed B cell differentiation and by a poor response to vaccination. PAD can be divided into agammaglobulinemia, Ig class switch recombination deficiencies, and idiopathic hypogammaglobulinemia. Over the past 20 years, defects have been identified in 18 different genes, but in many PAD patients the underlying gene defects have not been found. Diagnosis of known PAD and discovery of new PAD is important for good patient care. In this review, we present the effects of genetic defects in the context of normal B cell differentiation, and we discuss how new technical developments can support understanding and discovering new genetic defects in PAD.

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“…In fact, genetic deficiencies of CD19 expression (or its coordinated protein CD81) have been described [2][3][4][5] which were reported in association with autoimmune diseases including SLE. 2,3,6 In some cases alteration of CD19 B cells' surface expression was even hypothesized to play a role in the pathogenesis of SLE.…”

Section: Sirmentioning

confidence: 99%

“…2,4,5 It is worthy to note that abnormalities in CD19 expression were found to affect transitional B cells, 5 which are likely to be the most susceptible to belimumab treatment, therefore a congenital deficiency in CD19 levels would expose patients to an unexpectedly great decrease in transitional B cells.…”

Section: Sirmentioning

confidence: 99%