Ahmed Al-Qahtani
University of California, Irvine
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Publication
Featured researches published by Ahmed Al-Qahtani.
Nature Communications | 2012
Egest J. Pone; Zhang J; Thach Mai; Clayton A. White; Guideng Li; John K. Sakakura; Pina J. Patel; Ahmed Al-Qahtani; Hong Zan; Zhenming Xu; Paolo Casali
By diversifying antibody biological effector functions, class switch DNA recombination has a central role in the maturation of the antibody response. Here we show that BCR-signalling synergizes with Toll-like receptor (TLR) signalling to induce class switch DNA recombination. BCR-signalling activates the non-canonical NF-κB pathway and enhances the TLR-dependent canonical NF-κB pathway, thereby inducing activation-induced cytidine deaminase (AID), which is critical for class switch DNA recombination. Escherichia coli lipopolysaccharide (LPS) triggers dual TLR4/BCR-signalling and induces hallmarks of BCR-signalling, including CD79a phosphorylation and Ca2+ mobilization, and activates both the NF-κB pathways to induce AID and class switch DNA recombination in a PI(3)K p85α-dependent fashion. CD40-signalling activates the two NF-κB pathways to induce AID and class switch DNA recombination independent of BCR-signalling. Finally, dual BCR/TLR-engaging NP–lipopolysaccharide effectively elicits class-switched NP-specific IgG3 and IgG2b in mice. Thus, by integrating signals of the non-canonical and canonical NF-κB pathways, BCR and TLRs synergize to induce AID and T-cell-independent class switch DNA recombination.
The EMBO Journal | 2005
Hong Zan; Naoko Shima; Zhenming Xu; Ahmed Al-Qahtani; Albert J Evinger; Yuan Zhong; John C. Schimenti; Paolo Casali
Immunoglobulin (Ig) somatic hypermutation (SHM) critically underlies the generation of high‐affinity antibodies. Mutations can be introduced by error‐prone polymerases such as polymerase ζ (Rev3), a mispair extender, and polymerase η, a mispair inserter with a preference for dA/dT, while repairing DNA lesions initiated by AID‐mediated deamination of dC to yield dU:dG mismatches. The partial impairment of SHM observed in the absence of these polymerases led us to hypothesize a main role for another translesion DNA polymerase. Here, we show that deletion in C57BL/6J mice of the translesion polymerase θ, which possesses a dual nucleotide mispair inserter–extender function, results in greater than 60% decrease of mutations in antigen‐selected V186.2DJH transcripts and greater than 80% decrease in mutations in the Ig H chain intronic JH4‐iEμ sequence, together with significant alterations in the spectrum of the residual mutations. Thus, polymerase θ plays a dominant role in SHM, possibly by introducing mismatches while bypassing abasic sites generated by UDG‐mediated deglycosylation of AID‐effected dU, by extending DNA past such abasic sites and by synthesizing DNA during dU:dG mismatch repair.
Nature Structural & Molecular Biology | 2010
Zhenming Xu; Zsolt Fulop; GuiKai Wu; Egest J. Pone; Zhang J; Thach Mai; Lisa M. Thomas; Ahmed Al-Qahtani; Clayton A. White; Seok-Rae Park; Petra Steinacker; Zenggang Li; John R. Yates; Bruce J. Herron; Markus Otto; Hong Zan; Haian Fu; Paolo Casali
Class switch DNA recombination (CSR) is the mechanism that diversifies the biological effector functions of antibodies. Activation-induced cytidine deaminase (AID), a key protein in CSR, targets immunoglobulin H (IgH) switch regions, which contain 5′-AGCT-3′ repeats in their core. How AID is recruited to switch regions remains unclear. Here we show that 14-3-3 adaptor proteins have an important role in CSR. 14-3-3 proteins specifically bound 5′-AGCT-3′ repeats, were upregulated in B cells undergoing CSR and were recruited with AID to the switch regions that are involved in CSR events (Sμ→Sγ1, Sμ→Sγ3 or Sμ→Sα). Moreover, blocking 14-3-3 by difopein, 14-3-3γ deficiency or expression of a dominant-negative 14-3-3σ mutant impaired recruitment of AID to switch regions and decreased CSR. Finally, 14-3-3 proteins interacted directly with AID and enhanced AID-mediated in vitro DNA deamination, further emphasizing the important role of these adaptors in CSR.
Autoimmunity | 2011
Clayton A. White; J. Seth Hawkins; Egest J. Pone; Elliot S. Yu; Ahmed Al-Qahtani; Thach Mai; Hong Zan; Paolo Casali
Immunoglobulin gene somatic hypermutation (SHM) and class switch DNA recombination (CSR) play important roles in the generation of autoantibodies in systemic lupus erythematosus. Systemic lupus is characterized by the production of an array of pathogenic high-affinity mutated and class-switched, mainly IgG, antibodies to a variety of self-antigens, including nuclear components, such as dsDNA, histones, and chromatin. We previously found that MRL/Faslpr/lpr mice, which develop a systemic autoimmune syndrome sharing many features with human lupus, display greatly upregulated CSR, particularly to IgG2a, in B cells of the spleen, lymph nodes, and Peyers patches. In MRL/Faslpr/lpr mice, the significant upregulation of CSR is associated with increased expression of activation-induced cytidine deaminase (AID), which is critical for CSR and SHM. We also found that HoxC4 directly activates the promoter of the AID gene to induce AID expression, CSR and SHM. Here, we show that in both lupus patients and lupus-prone MRL/Faslpr/lpr mice, the expression of HoxC4 and AID is significantly upregulated. To further analyze the role of HoxC4 in lupus, we generated HoxC4− / − MRL/Faslpr/lpr mice. In these mice, HoxC4-deficiency resulted in reduced AID expression, impaired CSR, and decreased serum anti-dsDNA IgG, particularly IgG2a, autoantibodies, which were associated with a reduction in IgG deposition in kidney glomeruli. In addition, consistent with our previous findings in MRL/Faslpr/lpr mice that upregulated AID expression is associated with extensive DNA lesions, comprising deletions and insertions in the IgH locus, we found that c-Myc to IgH (c-Myc/IgH) translocations occur frequently in B cells of MRL/Faslpr/lpr mice. The frequency of such translocations was significantly reduced in HoxC4− / − MRL/Faslpr/lpr mice. These findings suggest that in lupus B cells, upregulation of HoxC4 plays a major role in dysregulation of AID expression, thereby increasing CSR and autoantibody production and promoting c-Myc/IgH translocations.
Molecular Immunology | 2011
Hong Zan; Zhang J; Ahmed Al-Qahtani; Egest J. Pone; Clayton A. White; Derrik Lee; Leman Yel; Thach Mai; Paolo Casali
Immunoglobulin (Ig) class switch DNA recombination (CSR) is the crucial mechanism diversifying the biological effector functions of antibodies. Generation of double-strand DNA breaks (DSBs), particularly staggered DSBs, in switch (S) regions of the upstream and downstream CH genes involved in the specific recombination process is an absolute requirement for CSR. Staggered DSBs would be generated through deamination of dCs on opposite DNA strands by activation-induced cytidine deaminase (AID), subsequent dU deglycosylation by uracil DNA glycosylase (Ung) and abasic site nicking by apurinic/apyrimidic endonuclease. However, consistent with the findings that significant amounts of DSBs can be detected in the IgH locus in the absence of AID or Ung, we have shown in human and mouse B cells that AID generates staggered DSBs not only by cleaving intact double-strand DNA, but also by processing blunt DSB ends generated in an AID-independent fashion. How these AID-independent DSBs are generated is still unclear. It is possible that S region DNA may undergo AID-independent cleavage by structure-specific nucleases, such as endonuclease G (EndoG). EndoG is an abundant nuclease in eukaryotic cells. It cleaves single and double-strand DNA, primarily at dG/dC residues, the preferential sites of DSBs in S region DNA. We show here that EndoG can localize to the nucleus of B cells undergoing CSR and binds to S region DNA, as shown by specific chromatin immunoprecipitation assays. Using knockout EndoG(-/-) mice and EndoG(-/-) B cells, we found that EndoG deficiency resulted in a two-fold reduction in CSR in vivo and in vitro, as demonstrated by reduced cell surface IgG1, IgG2a, IgG3 and IgA, reduced secreted IgG1, reduced circle Iγ1-Cμ, Iγ3-Cμ, Iɛ-Cμ, Iα-Cμ transcripts, post-recombination Iμ-Cγ1, Iμ-Cγ3, Iμ-Cɛ and Iμ-Cα transcripts. In addition to reduced CSR, EndoG(-/-) mice showed a significantly altered spectrum of mutations in IgH J(H)-iEμ DNA. Impaired CSR in EndoG(-/-) B cells did not stem from altered B cell proliferation or apoptosis. Rather, it was associated with significantly reduced frequency of DSBs. Thus, our findings determine a role for EndoG in the generation of S region DSBs and CSR.
Autoimmunity | 2008
Ahmed Al-Qahtani; Zhenming Xu; Hong Zan; Craig M. Walsh; Paolo Casali
DAP-related apoptotic kinase-2 (DRAK2), a death-associated protein kinase family member, is highly expressed in B and T lymphocytes in the human and the mouse. To determine whether DRAK2 plays a role in B-cell activation and differentiation, we analyzed germinal centers (GCs) and the specific antibody response to NP in drak2− / − mice immunized with the thymus-dependent (TD) conjugated hapten NP16-CGG. In drak2− / − mice, spleen GCs were normal in size and morphology, but their number was reduced by as much as 5-fold, as compared to their wild-type littermates. This was not due to a defect in B-cell proliferation, as the BrdU uptake was comparable in DRAK2-deficient and wild-type B cells. Rather, the proportion of apoptotic GC B and T cells in drak2− / − mice was significantly higher than that in wild-type control mice, as shown by 7-AAD and terminal deoxynucleotide transferase dUTP nick end labeling (TUNEL) staining. In drak2− / − mice, the generation high affinity IgG antibodies was impaired in spite of the seemingly normal somatic hypermutation and class switch DNA recombination machineries in drak2− / − B cells. In NP16-CGG-immunized drak2− / − mice, T-cell-intrinsic Bcl-xL transgene expression increased the number of GCs and rescued the high affinity IgG response to NP. These findings suggest a novel role for DRAK2 in regulating the GC reaction and the response to TD antigens, perhaps through increased survival of T cells and enhanced B-cell positive selection. They also suggest that DRAK2-deficiency is not involved in regulating intrinsic B-cell apoptosis.
Nature Immunology | 2009
Seok-Rae Park; Hong Zan; Zsuzsanna Pal; Zhang J; Ahmed Al-Qahtani; Egest J. Pone; Zhenming Xu; Thach Mai; Paolo Casali
Critical Reviews in Immunology | 2010
Egest J. Pone; Hong Zan; Jingsong Zhang; Ahmed Al-Qahtani; Zhenming Xu; Paolo Casali
Critical Reviews in Immunology | 2007
Zhenming Xu; Egest J. Pone; Ahmed Al-Qahtani; Seok-Rae Park; Hong Zan; Paolo Casali
Autoimmunity | 2011
Clayton A. White; J. Seth Hawkins; Egest J. Pone; Elliot S. Yu; Ahmed Al-Qahtani; Thach Mai; Hong Zan; Paolo Casali