Jurg Rohrer scite author profile

The signal transduction events that control the progenitor B cell (pro-B cell) to precursor B cell (pre-B cell) transition have not been well delineated. In evaluating patients with absent B cells, a male with a homozygous splice defect in the cytoplasmic adapter protein BLNK (B cell linker protein) was identified. Although this patient had normal numbers of pro-B cells, he had no pre-B cells or mature B cells, indicating that BLNK plays a critical role in orchestrating the pro-B cell to pre-B cell transition. The immune system and overall growth and development were otherwise normal in this patient, suggesting that BLNK function is highly specific.

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Mutations in the Mu Heavy-Chain Gene in Patients with Agammaglobulinemia

Yel

et al. 1996

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Sialyl Lewis x (CD15s) identifies highly differentiated and most suppressive FOXP3 ^high regulatory T cells in humans

Miyara

Chader

Sage

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

136

121

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SignificanceCD4+ regulatory T (Treg) cells expressing CD25 and the transcription factor forkhead box P3 (FOXP3) play indispensable roles for immunological self-tolerance and homeostasis. Because human FOXP3+CD25+CD4+ T cells are heterogeneous in function and differentiation status, their analysis and manipulation for treating immunological diseases remains a challenge. Here we show that CD15s (sialyl Lewis x) is specifically expressed by activated, terminally differentiated, and most suppressive FOXP3high Treg cells, allowing their separation from nonsuppressive FOXP3+CD4+ T cells secreting inflammatory cytokines. Removal of CD15s+CD4+ T cells from human blood is indeed sufficient to enhance in vitro antitumor and antiviral antigen responses. CD15s is therefore useful for phenotypic as well as functional analysis of human Treg subpopulations and for targeting them to control immune responses.

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Mutations in Btk in Patients with Presumed X-Linked Agammaglobulinemia

Conley

Mathias

Treadaway

et al. 1998

The American Journal of Human Genetics

153

106

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In 1993, two groups showed that X-linked agammaglobulinemia (XLA) was due to mutations in a tyrosine kinase now called Btk. Most laboratories have been able to detect mutations in Btk in 80%-90% of males with presumed XLA. The remaining patients may have mutations in Btk that are difficult to identify, or they may have defects that are phenotypically similar to XLA but genotypically different. We analyzed 101 families in which affected males were diagnosed as having XLA. Mutations in Btk were identified in 38 of 40 families with more than one affected family member and in 56 of 61 families with sporadic disease. Excluding the patients in whom the marked decrease in B cell numbers characteristic of XLA could not be confirmed by immunofluorescence studies, mutations in Btk were identified in 43 of 46 patients with presumed sporadic XLA. Two of the three remaining patients had defects in other genes required for normal B cell development, and the third patient was unlikely to have XLA, on the basis of results of extensive Btk analysis. Our techniques were unable to identify a mutation in Btk in one male with both a family history and laboratory findings suggestive of XLA. DNA samples from 41 of 49 of the mothers of males with sporadic disease and proven mutations in Btk were positive for the mutation found in their son. In the other 8 families, the mutation appeared to arise in the maternal germ line. In 20 families, haplotype analysis showed that the new mutation originated in the maternal grandfather or great-grandfather. These studies indicate that 90%-95% of males with presumed XLA have mutations in Btk. The other patients are likely to have defects in other genes.

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Defects in early B‐cell development: comparing the consequences of abnormalities in pre‐BCR signaling in the human and the mouse

Conley

Rohrer

Rapalus

et al. 2000

Immunological Reviews

109

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Patients with genetic defects in B-cell development provide an unusual opportunity to dissect the requirements for normal B-cell maturation. It is striking that all of the known genetic defects that result in a failure of B-cell development involve signaling through the pre-B-cell receptor (pre-BCR). Approximately 85% of affected patients are males with mutations in the X chromosome-encoded cytoplasmic tyrosine kinase Btk. Preliminary experiments using stem cell transplants and retroviral-mediated gene therapy in Btk-deficient mice suggest that it may be relatively easy to correct serum immunoglobulins but harder to correct antibody production to T-cell-independent antigens in this disorder. About 3-6% of patients with defects in B-cell development have deletions or critical base pair substitutions in the mu constant region gene. Patients with defects in Igalpha, lambda5 and B-cell linker protein (BLNK) have also been described. All of these patients have a block at the pro-B to pre-B-cell transition. Defects in Btk, lambda5 and BLNK result in a more severe phenotype in the human compared to the mouse. These findings suggest that requirements for signaling through the pre-BCR are more stringent in the human compared to the mouse. Possible explanations for this observation are discussed.

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Jurg Rohrer

An Essential Role for BLNK in Human B Cell Development

Mutations in the Mu Heavy-Chain Gene in Patients with Agammaglobulinemia

Sialyl Lewis x (CD15s) identifies highly differentiated and most suppressive FOXP3 ^high regulatory T cells in humans

Mutations in Btk in Patients with Presumed X-Linked Agammaglobulinemia

Defects in early B‐cell development: comparing the consequences of abnormalities in pre‐BCR signaling in the human and the mouse

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About

Jurg Rohrer

An Essential Role for BLNK in Human B Cell Development

Mutations in the Mu Heavy-Chain Gene in Patients with Agammaglobulinemia

Sialyl Lewis x (CD15s) identifies highly differentiated and most suppressive FOXP3 high regulatory T cells in humans

Mutations in Btk in Patients with Presumed X-Linked Agammaglobulinemia

Defects in early B‐cell development: comparing the consequences of abnormalities in pre‐BCR signaling in the human and the mouse

Contact Info

Product

Resources

About

Sialyl Lewis x (CD15s) identifies highly differentiated and most suppressive FOXP3 ^high regulatory T cells in humans