Corey N. Miller scite author profile

The accumulation of unfolded proteins in the endoplasmic reticulum (ER) activates a signaling cascade known as the unfolded protein response (UPR). Although activation of the UPR is well described, there is little sense of how the response, which initiates both apoptotic and adaptive pathways, can selectively allow for adaptation. Here we describe the reconstitution of an adaptive ER stress response in a cell culture system. Monitoring the activation and maintenance of representative UPR gene expression pathways that facilitate either adaptation or apoptosis, we demonstrate that mild ER stress activates all UPR sensors. However, survival is favored during mild stress as a consequence of the intrinsic instabilities of mRNAs and proteins that promote apoptosis compared to those that facilitate protein folding and adaptation. As a consequence, the expression of apoptotic proteins is short-lived as cells adapt to stress. We provide evidence that the selective persistence of ER chaperone expression is also applicable to at least one instance of genetic ER stress. This work provides new insight into how a stress response pathway can be structured to allow cells to avert death as they adapt. It underscores the contribution of posttranscriptional and posttranslational mechanisms in influencing this outcome.

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Detection of Succinate by Intestinal Tuft Cells Triggers a Type 2 Innate Immune Circuit

Nadjsombati

et al. 2018

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In the small intestine, type 2 responses are regulated by a signaling circuit that involves tuft cells and group 2 innate lymphoid cells (ILC2s). Here, we identified the microbial metabolite succinate as an activating ligand for small intestinal (SI) tuft cells. Sequencing analyses of tuft cells isolated from the small intestine, gall bladder, colon, thymus, and trachea revealed that expression of tuft cell chemosensory receptors is tissue specific. SI tuft cells expressed the succinate receptor (SUCNR1), and providing succinate in drinking water was sufficient to induce a multifaceted type 2 immune response via the tuft-ILC2 circuit. The helminth Nippostrongylus brasiliensis and a tritrichomonad protist both secreted succinate as a metabolite. In vivo sensing of the tritrichomonad required SUCNR1, whereas N. brasiliensis was SUCNR1 independent. These findings define a paradigm wherein tuft cells monitor microbial metabolites to initiate type 2 immunity and suggest the existence of other sensing pathways triggering the response to helminths.

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Thymic tuft cells promote an IL-4-enriched medulla and shape thymocyte development

Miller

Proekt

Moltke

et al. 2018

Nature

228

361

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The thymus is responsible for generating a diverse yet self-tolerant pool of T cells. Although the thymic medulla consists mostly of developing and mature AIRE epithelial cells, recent evidence has suggested that there is far greater heterogeneity among medullary thymic epithelial cells than was previously thought. Here we describe in detail an epithelial subset that is remarkably similar to peripheral tuft cells that are found at mucosal barriers. Similar to the periphery, thymic tuft cells express the canonical taste transduction pathway and IL-25. However, they are unique in their spatial association with cornified aggregates, ability to present antigens and expression of a broad diversity of taste receptors. Some thymic tuft cells pass through an Aire-expressing stage and depend on a known AIRE-binding partner, HIPK2, for their development. Notably, the taste chemosensory protein TRPM5 is required for their thymic function through which they support the development and polarization of thymic invariant natural killer T cells and act to establish a medullary microenvironment that is enriched in the type 2 cytokine, IL-4. These findings indicate that there is a compartmentalized medullary environment in which differentiation of a minor and highly specialized epithelial subset has a non-redundant role in shaping thymic function.

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The unfolded protein response sensor IRE1α is required at 2 distinct steps in B cell lymphopoiesis

Zhang¹,

Wong²,

Song³

et al. 2005

J. Clin. Invest.

296

263

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Thymic regulatory T cells arise via two distinct developmental programs

et al. 2019

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The developmental programs that generate a broad repertoire of regulatory T cells (T reg cells) able to respond to both self antigens and non–self antigens remain unclear. Here we found that mature T reg cells were generated through two distinct developmental programs involving CD25 + T reg cell progenitors (CD25 + T reg P) and Foxp3 lo T reg cell progenitors (Foxp3 lo T reg P). The CD25 + T reg P had higher rates of apoptosis and interacted with thymic self-antigens with higher affinity than Foxp3 lo T reg P, and had a T cell antigen receptor (TCR) repertoire and transcriptome distinct from that of Foxp3 lo T reg P. The development of CD25 + T reg P and Foxp3 lo T reg P was controlled by distinct signaling pathways and enhancers. Transcriptomic and histocytometric data suggested that CD25 + T reg P and Foxp3 lo T reg P arose by coopting negative and positive selection programs, respectively. T reg cells derived from CD25 + T reg P, but not Foxp3 lo T reg P, prevented experimental autoimmune encephalitis. Our findings indicate that T reg cells arise through two distinct developmental programs that are both required for a comprehensive T reg cell repertoire capable of establishing immune tolerance.

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Single-cell transcriptional profiling of human thymic stroma uncovers novel cellular heterogeneity in the thymic medulla

et al. 2021

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The thymus’ key function in the immune system is to provide the necessary environment for the development of diverse and self-tolerant T lymphocytes. While recent evidence suggests that the thymic stroma is comprised of more functionally distinct subpopulations than previously appreciated, the extent of this cellular heterogeneity in the human thymus is not well understood. Here we use single-cell RNA sequencing to comprehensively profile the human thymic stroma across multiple stages of life. Mesenchyme, pericytes and endothelial cells are identified as potential key regulators of thymic epithelial cell differentiation and thymocyte migration. In-depth analyses of epithelial cells reveal the presence of ionocytes as a medullary population, while the expression of tissue-specific antigens is mapped to different subsets of epithelial cells. This work thus provides important insight on how the diversity of thymic cells is established, and how this heterogeneity contributes to the induction of immune tolerance in humans.

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The unfolded protein response sensor IRE1α is required at 2 distinct steps in B cell lymphopoiesis

Zhang¹,

Wong²,

Song³

et al. 2005

J. Clin. Invest.

169

145

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Combined transient ablation and single-cell RNA-sequencing reveals the development of medullary thymic epithelial cells

Wells

Miller

Gschwind

et al. 2020

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Medullary thymic epithelial cells (mTECs) play a critical role in central immune tolerance by mediating negative selection of autoreactive T cells through the collective expression of the peripheral self-antigen compartment, including tissue-specific antigens (TSAs). Recent work has shown that gene expression patterns within the mTEC compartment are remarkably heterogenous and include multiple differentiated cell states. To further define mTEC development and medullary epithelial lineage relationships, we combined lineage tracing and recovery from transient in vivo mTEC ablation with single cell RNA-sequencing in Mus musculus. The combination of bioinformatic and experimental approaches revealed a non-stem transit-amplifying population of cycling mTECs that preceded Aire expression. Based on our findings, we propose a branching model of mTEC development wherein a heterogeneous pool of transit-amplifying cells gives rise to Aire- and Ccl21a-expressing mTEC subsets. We further use experimental techniques to show that within the Aire-expressing developmental branch, TSA expression peaked as Aire expression decreased, implying Aire expression must be established before TSA expression can occur. Collectively, these data provide a higher order roadmap of mTEC development and demonstrate the power of combinatorial approaches leveraging both in vivo models and high-dimensional datasets.

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Corey N. Miller

Adaptation to ER Stress Is Mediated by Differential Stabilities of Pro-Survival and Pro-Apoptotic mRNAs and Proteins

Detection of Succinate by Intestinal Tuft Cells Triggers a Type 2 Innate Immune Circuit

Thymic tuft cells promote an IL-4-enriched medulla and shape thymocyte development

The unfolded protein response sensor IRE1α is required at 2 distinct steps in B cell lymphopoiesis

Thymic regulatory T cells arise via two distinct developmental programs

Single-cell transcriptional profiling of human thymic stroma uncovers novel cellular heterogeneity in the thymic medulla

The unfolded protein response sensor IRE1α is required at 2 distinct steps in B cell lymphopoiesis

Combined transient ablation and single-cell RNA-sequencing reveals the development of medullary thymic epithelial cells

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