CD38 unresponsiveness of <i>xid</i> B cells implicates Bruton's tyrosine kinase (<i>btk</i>) as a regulator of CD38 induced signal transduction

Santos‐Argumedo, Leopoldo; Fe, Lund; Aw, Heath; Solvason, Nanette; Ww, Wu; Jc, Grimaldi; Parkhouse, R. M. E.; Howard, Maureen

doi:10.1093/intimm/7.2.163

Cited by 89 publications

(58 citation statements)

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“…Thus, activation and normal expansion of memory B cells seems independent of Btk. An example of Btk independent signalling is stimulation through CD40 since naive B cells from xid mice proliferate normally in response to CD40L [8,24]. If expansion and differentiation of memory B cells were to depend more on stimulation by CD40L than on pathways using Btk, such as B-cell receptor stimulation [25], then the kinetics and magnitude of the secondary response in xid mice may well be similar to that in wild type.…”

Section: Resultsmentioning

confidence: 99%

B Cell Memory in xid Mice is Long‐Lived Despite Reduced Memory B Cell Frequency

Ridderstad

Tarlinton

1997

Scand J Immunol

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Ridderstad A, Tarlinton DM. B Cell Memory in xid Mice is Long-Lived Despite Reduced Memory B Cell Frequency. Scand J Immunol 1997;45:655-659 Brutons tyrosine kinase (Btk) deficient xid mice have a diminished primary T cell dependent immune response, resulting in a reduced memory B cell frequency. Boosting at 35 days post primary immunization, however, generates a normal secondary immune response, indicating a functional memory B cell compartment. The longevity of B cell memory appears to depend on both the presence of antigen and expression of cell survival genes such as bcl-2. Since there is a natural decay in the number of memory B cells over time and since xid B cells have been demonstrated to have reduced Bcl-2 levels, we aimed at determining whether B cell memory of xid mice would be long-lasting. This report demonstrates that memory B cell precursors are detectable in xid mice more than 100 days after primary immunization. Furthermore, a secondary immune response of normal magnitude and kinetics can be generated in xid mice at 150 days after primary immunization indicating that B cell memory is long-lived in xid mice. Thus, although survival of B cell memory is presumably dependent on immunoglobulin (Ig)-mediated interaction with antigen, this interaction does not depend solely on signalling through Btk.

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Section: Resultsmentioning

confidence: 99%

B Cell Memory in xid Mice is Long‐Lived Despite Reduced Memory B Cell Frequency

Ridderstad

Tarlinton

1997

Scand J Immunol

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“…These diseases are characterized by defects in B cell development and function. Genetic and biochemical analyses indicate that Btk is a component of the signal transduction pathways utilized by the B cell antigen receptor (BCR), IL-5R, IL-6R, IL-10R, CD38, and FceRI (Wicker and Scher, 1986;Hinshelwood et al, 1995;Saouf et al, 1994;Aoki et al, 1994;de Weers et al, 1994;Koike et al, 1995;Sato et al, 1994;Hitoshi et al, 1993;Matsuda et al, 1995;Santos-Argumedo et al, 1995;Go et al, 1990;Kawakami et al, 1994). Activation of Btk by either receptor crosslinking or a point mutation E41K in the PH domain (Btk*) is dependent on Src family kinases Afar et al, 1996;Saouf et al, 1994;Mahajan et al, 1995) and is correlated with increased tyrosine phosphorylation Li et al, 1995;Mahajan et al, 1995;Hinshelwood et al, 1995;Aoki et al, 1994;de Weers et al, 1994;Saouf et al, 1994;Sato et al, 1994;Kawakami et al, 1994;Matsuda et al, 1995) and translocation to the plasma membrane (Li et al, 1995;Kawakami et al, 1994).…”

Section: Introductionmentioning

confidence: 99%

Constitutive membrane association potentiates activation of Bruton tyrosine kinase

Rawlings

Park

et al. 1997

Oncogene

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Mutations in the nonreceptor tyrosine kinase Btk result in the B cell immunode®ciencies X-linked agammaglobulinemia (XLA) in humans and X-linked immunode®-ciency (xid) in mice. Genetic and biochemical evidence implicates Btk as a key component of several B cell signaling pathways. Activation of Btk by a point mutation (E41K) within the PH domain (Btk*) results in ®broblast transformation and is correlated with increased membrane localization of Btk. When wild type Btk is activated by coexpression with Lyn, the tyrosine phosphorylated pool of Btk is highly enriched in the membrane fraction. To determine whether membrane association is su cient to activate Btk, we targeted Btk to the plasma membrane using a series of fusion proteins including GagBtk, CD16Btk and CD4Btk. Constitutive membrane association greatly enhanced the ability of Btk to transform Rat2 ®broblasts in the presence of high levels of Src activity. All membrane targeted forms of Btk were highly tyrosine phosphorylated. Transformation required membrane localization, Btk kinase activity, transphosphorylation by Src family kinases, and an intact SH2 domain but not the PH or SH3 domains. These data suggest that membrane localization is a critical early step in Btk activation.

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“…XLA manifests as a severe humoral immunodeficiency with an absence of functional B cells in the periphery. xid results in an alteration of normal B cell development that reduces the total peripheral B cell population by Ϸ50% and impairs functional responses to certain T cell-independent antigens, activation of the BCR, interleukin-5 receptor, interleukin-10 receptor, CD38, and CD40 on B cells; the Fc ⑀ receptor on mast cells; and non-integrin collagen receptors on platelets (7)(8)(9)(10)(11)(12)(13)(14)(15). Transgenic model systems demonstrate a Btk dose-dependent phenotype of immunodeficiency and B cell dysfunction in vivo (16).…”

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confidence: 99%

In situdetection of activated Bruton’s tyrosine kinase in the Ig signaling complex by phosphopeptide-specific monoclonal antibodies

Nisitani

Kato²,

Rawlings³

et al. 1999

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

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Bruton's tyrosine kinase (Btk) is a critical transducer of signals originating from the B cell antigen receptor (BCR). Dosage, sequential phosphorylation, and protein interactions are interdependent mechanisms inf luencing Btk function. Phosphopeptide-specific mAbs recognizing two distinct phosphotyrosine modifications were used to quantify Btk activation by immunof luorescent techniques during B cell stimulation. In a population of cultured B cells stimulated by BCR crosslinking and analyzed by f low cytometry, transient phosphorylation of the regulatory Btk tyrosine residues (551Y and 223Y) was detected. The kinetics of phosphorylation of the residues were temporally distinct. Tyrosine 551, a transactivating substrate site for Src-family kinases, was maximally phosphorylated within Ϸ30 seconds of stimulation as monitored by f low cytometry. Tyrosine 223, an autophosphorylation site within the SH3 domain, was maximally phosphorylated at Ϸ5 minutes. Btk returned to a low tyrosine phosphorylation level within 30 minutes, despite persistent elevation of global tyrosine phosphorylation. Colocalization of activated Btk molecules with the crosslinked BCR signaling complex was observed to coincide with the period of maximal Btk tyrosine phosphorylation when stimulated B cells were analyzed with confocal microscopy. The results of these in situ temporal and spatial analyses imply that Btk signaling occurs in the region of the Ig receptor signaling complex, suggesting a similar location for downstream targets of its activity.Bruton's tyrosine kinase (Btk) is an essential component of B cell signaling pathways linking receptor activation to important downstream processes such as the control of intracellular free calcium (1-4). The biological importance of its signaling function was shown by naturally occurring Btk loss of function mutations in human X linked agammaglobulinemia (XLA) and murine X linked immunodeficiency (xid) syndromes (5, 6). XLA manifests as a severe humoral immunodeficiency with an absence of functional B cells in the periphery. xid results in an alteration of normal B cell development that reduces the total peripheral B cell population by Ϸ50% and impairs functional responses to certain T cell-independent antigens, activation of the BCR, interleukin-5 receptor, interleukin-10 receptor, CD38, and CD40 on B cells; the Fc ⑀ receptor on mast cells; and non-integrin collagen receptors on platelets (7-15). Transgenic model systems demonstrate a Btk dose-dependent phenotype of immunodeficiency and B cell dysfunction in vivo (16). When Btk expression is absent, specific BCR responses to type II T cell-independent antigens are undetectable. A low level of Btk expression confers partial recovery of these responses. Strikingly, transgenic overexpression of the wildtype allele diminishes antigen responses compared with nor-

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CD38 unresponsiveness of xid B cells implicates Bruton's tyrosine kinase (btk) as a regulator of CD38 induced signal transduction

Cited by 89 publications

References 0 publications

B Cell Memory in xid Mice is Long‐Lived Despite Reduced Memory B Cell Frequency

B Cell Memory in xid Mice is Long‐Lived Despite Reduced Memory B Cell Frequency

Constitutive membrane association potentiates activation of Bruton tyrosine kinase

In situdetection of activated Bruton’s tyrosine kinase in the Ig signaling complex by phosphopeptide-specific monoclonal antibodies

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