Ariel Raybuck scite author profile

• Maturation, homeostasis, and function of peripheral B lymphoid cells require Rictor, an essential mTOR complex 2 component.• Rictor regulates survival of B cells and their balance of proapoptotic vs antiapoptotic gene expression.The mammalian target of rapamycin (mTOR), an essential serine/threonine kinase, functions in biochemically distinct multiprotein complexes, but little is known about roles of the complexes in B cells. The acutely rapamycin-sensitive mTOR complex 1 (mTORC1) is defined by a core subunit Raptor, whereas mTORC2 lacks Raptor and, instead, has Rictor and SIN1 as distinct essential components. We now show that homeostasis and function of B cells require Rictor. Conditional deletion of Rictor before lymphoid specification impaired generation of mature follicular, marginal zone, and B1a B lymphocytes. Induced inactivation in adult mice caused cell-autonomous defects in B lymphoid homeostasis and antibody responses in vivo, along with affecting plasma cells in bone marrow. Survival of B lymphocytes depended on Rictor, which was vital for normal induction of prosurvival genes, suppression of proapoptotic genes, nuclear factor kB induction after B-cell receptor stimulation, and B-cell activating factor-induced nuclear factor kB2/p52 generation. Collectively, the findings provide evidence that mTOR signaling affects survival and proliferation of mature B lymphocytes, and establish Rictor as an important signal relay in B-cell homeostasis, fate, and functions. (Blood. 2013;122(14):2369-2379

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Hypoxia-inducible factors in CD4⁺T cells promote metabolism, switch cytokine secretion, and T cell help in humoral immunity

Cho

Raybuck

Blagih

et al. 2019

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

100

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T cell help in humoral immunity includes interactions of B cells with activated extrafollicular CD4+ and follicular T helper (Tfh) cells. Each can promote antibody responses but Tfh cells play critical roles during germinal center (GC) reactions. After restimulation of their antigen receptor (TCR) by B cells, helper T cells act on B cells via CD40 ligand and secreted cytokines that guide Ig class switching. Hypoxia is a normal feature of GC, raising questions about molecular mechanisms governing the relationship between hypoxia response mechanisms and T cell help to antibody responses. Hypoxia-inducible factors (HIF) are prominent among mechanisms that mediate cellular responses to limited oxygen but also are induced by lymphocyte activation. We now show that loss of HIF-1α or of both HIF-1α and HIF-2α in CD4+ T cells compromised essential functions in help during antibody responses. HIF-1α depletion from CD4+ T cells reduced frequencies of antigen-specific GC B cells, Tfh cells, and overall antigen-specific Ab after immunization with sheep red blood cells. Compound deficiency of HIF-1α and HIF-2α led to humoral defects after hapten-carrier immunization. Further, HIF promoted CD40L expression while restraining the FoxP3-positive CD4+ cells in the CXCR5+ follicular regulatory population. Glycolysis increases T helper cytokine expression, and HIF promoted glycolysis in T helper cells via TCR or cytokine stimulation, as well as their production of cytokines that direct antibody class switching. Indeed, IFN-γ elaboration by HIF-deficient in vivo-generated Tfh cells was impaired. Collectively, the results indicate that HIF transcription factors are vital components of the mechanisms of help during humoral responses.

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B Cell–Intrinsic mTORC1 Promotes Germinal Center–Defining Transcription Factor Gene Expression, Somatic Hypermutation, and Memory B Cell Generation in Humoral Immunity

Raybuck

Cho

et al. 2018

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B lymphocytes migrate among varied microenvironmental niches during diversification, selection, and conversion to memory or Ab-secreting plasma cells. Aspects of the nutrient milieu differ within these lymphoid microenvironments and can influence signaling molecules such as the mechanistic target of rapamycin (mTOR). However, much remains to be elucidated as to the B cell-intrinsic functions of nutrient-sensing signal transducers that modulate B cell differentiation or Ab affinity. We now show that the amino acid-sensing mTOR complex 1 (mTORC1) is vital for induction of Bcl6-a key transcriptional regulator of the germinal center (GC) fate-in activated B lymphocytes. Accordingly, disruption of mTORC1 after B cell development and activation led to reduced populations of Ag-specific memory B cells as well as plasma cells and GC B cells. In addition, induction of the germ line transcript that guides activation-induced deaminase in selection of the IgG1 H chain region during class switching required mTORC1. Expression of the somatic mutator activation-induced deaminase was reduced by a lack of mTORC1 in B cells, whereas point mutation frequencies in Ag-specific GC-phenotype B cells were only halved. These effects culminated in a B cell-intrinsic defect that impacted an antiviral Ab response and drastically impaired generation of high-affinity IgG1. Collectively, these data establish that mTORC1 governs critical B cell-intrinsic mechanisms essential for establishment of GC differentiation and effective Ab production.

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B Cell–Intrinsic and –Extrinsic Regulation of Antibody Responses by PARP14, an Intracellular (ADP-Ribosyl)Transferase

Cho

Raybuck

Mao

et al. 2013

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The capacity to achieve sufficient concentrations of Ag-specific Ab of the appropriate isotypes is a critical component of immunity that requires efficient differentiation and interactions of Ag-specific B and T helper (Th) cells along with dendritic cells. Numerous bacterial toxins catalyze mono-(ADP-ribosyl)ation of mammalian proteins to impact cell physiology and adaptive immunity. However, little is known about biological functions of intracellular mammalian mono-(ADP-ribosyl)transferases (mART), such as any ability to regulate Ab responses. Poly-(ADP-Ribose) Polymerase 14 (PARP14), an intracellular protein highly expressed in lymphoid cells, binds to STAT6 and encodes a catalytic domain with mART activity. Here we show that recall IgA as well as the STAT6-dependent IgE Ab responses are impaired in PARP14-deficient mice. Whereas PARP14 regulation of IgE involved a B cell intrinsic process, the predominant impact on IgA was B cell-extrinsic. Of note, PARP14 deficiency reduced the levels of Th17 cells and CD103+ DCs which are implicated in IgA regulation. PARP14 enhanced the expression of RORα, Runx1 and Smad3 after T cell activation, and, importantly, its catalytic activity of PARP14 promoted Th17 differentiation. Collectively, the findings show that PARP14 influences the class distribution, affinity repertoire, and recall capacity of antibody responses in mice, and provide direct evidence of requirement for protein mono-ADP-ribosylation in T helper differentiation.

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Supplying the trip to antibody production—nutrients, signaling, and the programming of cellular metabolism in the mature B lineage

et al. 2021

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The COVID pandemic has refreshed and expanded recognition of the vital role that sustained antibody (Ab) secretion plays in our immune defenses against microbes and of the importance of vaccines that elicit Ab protection against infection. With this backdrop, it is especially timely to review aspects of the molecular programming that govern how the cells that secrete Abs arise, persist, and meet the challenge of secreting vast amounts of these glycoproteins. Whereas plasmablasts and plasma cells (PCs) are the primary sources of secreted Abs, the process leading to the existence of these cell types starts with naive B lymphocytes that proliferate and differentiate toward several potential fates. At each step, cells reside in specific microenvironments in which they not only receive signals from cytokines and other cell surface receptors but also draw on the interstitium for nutrients. Nutrients in turn influence flux through intermediary metabolism and sensor enzymes that regulate gene transcription, translation, and metabolism. This review will focus on nutrient supply and how sensor mechanisms influence distinct cellular stages that lead to PCs and their adaptations as factories dedicated to Ab secretion. Salient findings of this group and others, sometimes exhibiting differences, will be summarized with regard to the journey to a distinctive metabolic program in PCs.

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Selective inhibition of mTORC1 in tumor vessels increases antitumor immunity

Wang¹,

Raybuck²,

Shiuan³

et al. 2020

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12 3

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Ariel Raybuck

Germinal centre hypoxia and regulation of antibody qualities by a hypoxia response system

Selective glutamine metabolism inhibition in tumor cells improves antitumor T lymphocyte activity in triple-negative breast cancer

Requirement for Rictor in homeostasis and function of mature B lymphoid cells

Hypoxia-inducible factors in CD4⁺T cells promote metabolism, switch cytokine secretion, and T cell help in humoral immunity

B Cell–Intrinsic mTORC1 Promotes Germinal Center–Defining Transcription Factor Gene Expression, Somatic Hypermutation, and Memory B Cell Generation in Humoral Immunity

B Cell–Intrinsic and –Extrinsic Regulation of Antibody Responses by PARP14, an Intracellular (ADP-Ribosyl)Transferase

Supplying the trip to antibody production—nutrients, signaling, and the programming of cellular metabolism in the mature B lineage

Selective inhibition of mTORC1 in tumor vessels increases antitumor immunity

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Ariel Raybuck

Germinal centre hypoxia and regulation of antibody qualities by a hypoxia response system

Selective glutamine metabolism inhibition in tumor cells improves antitumor T lymphocyte activity in triple-negative breast cancer

Requirement for Rictor in homeostasis and function of mature B lymphoid cells

Hypoxia-inducible factors in CD4+T cells promote metabolism, switch cytokine secretion, and T cell help in humoral immunity

B Cell–Intrinsic mTORC1 Promotes Germinal Center–Defining Transcription Factor Gene Expression, Somatic Hypermutation, and Memory B Cell Generation in Humoral Immunity

B Cell–Intrinsic and –Extrinsic Regulation of Antibody Responses by PARP14, an Intracellular (ADP-Ribosyl)Transferase

Supplying the trip to antibody production—nutrients, signaling, and the programming of cellular metabolism in the mature B lineage

Selective inhibition of mTORC1 in tumor vessels increases antitumor immunity

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Hypoxia-inducible factors in CD4⁺T cells promote metabolism, switch cytokine secretion, and T cell help in humoral immunity