Co-reporter:Joseph G. Jardine;Takayuki Ota;Devin Sok;Matthias Pauthner;Daniel W. Kulp;Oleksandr Kalyuzhniy;Patrick D. Skog;Theresa C. Thinnes;Deepika Bhullar;Bryan Briney;Sergey Menis;Meaghan Jones;Mike Kubitz;Skye Spencer;Yumiko Adachi;Dennis R. Burton;William R. Schief
Science 2015 Vol 349(6244) pp:156-161
Publication Date(Web):10 Jul 2015
DOI:10.1126/science.aac5894
Steps in the right direction
HIV-1 mutates rapidly, making it difficult to design a vaccine that will protect people against all of the virus' iterations. A potential successful vaccine design might protect by eliciting broadly neutralizing antibodies (bNAbs), which target specific regions on HIV-1's trimeric envelope glycoprotein (Env) (see the Perspective by Mascola). Jardine et al. used mice engineered to express germline-reverted heavy chains of a particular bNAb and immunized them with an Env-based immunogen designed to bind to precursors of that bNAb. Sanders et al. compared rabbits and monkeys immunized with Env trimers that adopt a nativelike conformation. In both cases, immunized animals produced antibodies that shared similarities with bNAbs. Boosting these animals with other immunogens may drive these antibodies to further mutate into the longsought bNAbs. Chen et al. report that retaining the cytoplasmic domain of Env proteins may be important to attract bNAbs. Removing the cytoplasmic domain may distract the immune response and instead generate antibodies that target epitopes on Env that would not lead to protection.
Science, this issue p. 139, 10.1126/science.aac4223, p. 156; see also p. 191
Co-reporter:David Nemazee
Nature Reviews Immunology 2006 6(10) pp:728
Publication Date(Web):
DOI:10.1038/nri1939
The specificities of lymphocytes for antigen are generated by a quasi-random process of gene rearrangement that often results in non-functional or autoreactive antigen receptors. Regulation of lymphocyte specificities involves not only the elimination of cells that display 'unsuitable' receptors for antigen but also the active genetic correction of these receptors by secondary recombination of the DNA. As I discuss here, an important mechanism for the genetic correction of antigen receptors is ongoing recombination, which leads to receptor editing. Receptor editing is probably an adaptation that is necessitated by the high probability of receptor autoreactivity. In both B cells and T cells, the genes that encode the two chains of the antigen receptor seem to be specialized to promote, on the one hand, the generation of diverse specificities and, on the other hand, the regulation of these specificities through efficient editing.
Co-reporter:Amanda L. Gavin;Kasper Hoebe;Bao Duong;Takayuki Ota;Christopher Martin;Bruce Beutler
Science 2006 Vol 314(5807) pp:1936-1938
Publication Date(Web):22 Dec 2006
DOI:10.1126/science.1135299
Abstract
Innate immune signals mediated by Toll-like receptors (TLRs) have been thought to contribute considerably to the antibody-enhancing effects of vaccine adjuvants. However, we report here that mice deficient in the critical signaling components for TLR mount robust antibody responses to T cell–dependent antigen given in four typical adjuvants: alum, Freund's complete adjuvant, Freund's incomplete adjuvant, and monophosphoryl-lipid A/trehalose dicorynomycolate adjuvant. We conclude that TLR signaling does not account for the action of classical adjuvants and does not fully explain the action of a strong adjuvant containing a TLR ligand. This may have important implications in the use and development of vaccine adjuvants.
Co-reporter:Valerie Kouskoff;Georges Lacaud;Kathryn Pape;Marc Retter
PNAS 2000 Volume 97 (Issue 13 ) pp:7435-7439
Publication Date(Web):2000-06-20
DOI:10.1073/pnas.130182597
During B lymphocyte development, antibody genes are assembled by DNA recombination. Successful cell surface expression of
IgM promotes developmental progression. However, when antigen receptors bind autoantigen, development is blocked and ongoing
antibody gene recombination occurs, which often alters antibody specificity in a process called receptor editing. We demonstrate
here a significant role of developmental block and receptor editing in B cell receptor quality control. During development
a functional, non-self-reactive receptor undergoes receptor editing if its expression is below a certain threshold. Doubling
the receptor gene dose promotes development in the absence of autoantigen, but allows editing when autoantigen is present.
Thus, both underexpressed and harmful B cell receptors can undergo correction by receptor editing.
Co-reporter:José Luis Vela, Djemel Aït-Azzouzene, Bao Hoa Duong, Takayuki Ota, David Nemazee
Immunity (15 February 2008) Volume 28(Issue 2) pp:161-170
Publication Date(Web):15 February 2008
DOI:10.1016/j.immuni.2007.12.011
The recombining sequence (RS) of mouse and its human equivalent, the immunoglobulin (Ig) kappa deleting element (IGKDE), are sequences found at the 3′ end of the Ig kappa locus (Igk) that rearrange to inactivate Igk in developing B cells. RS recombination correlates with Ig lambda (Igλ) light (L) chain expression and likely plays a role in receptor editing by eliminating Igk genes encoding autoantibodies. A mouse strain was generated in which the recombination signal of RS was removed, blocking RS-mediated Igk inactivation. In RS mutant mice, receptor editing and self-tolerance were impaired, in some cases leading to autoantibody formation. Surprisingly, mutant mice also made fewer B cells expressing lambda chain, whereas λ versus κ isotype exclusion was only modestly affected. These results provide insight into the mechanism of L chain isotype exclusion and indicate that RS has a physiological role in promoting the formation of λ L chain-expressing B cells.
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