Changxin Wu scite author profile

The endoplasmic reticulum (ER) stress response detects malfunctions in cellular physiology, and microbial pattern recognition receptors recognize external threats posed by infectious agents. This study has investigated whether proinflammatory cytokine expression by monocyte-derived dendritic cells is affected by the induction of ER stress. Activation of ER stress, in combination with Toll-like receptor (TLR) agonists, markedly enhanced expression of mRNA of the unique p19 subunit of IL-23, and also significantly augmented secretion of IL-23 protein. These effects were not seen for IL-12 secretion. The IL-23 gene was found to be a target of the ER stressinduced transcription factor C/EBP homologous protein (CHOP), which exhibited enhanced binding in the context of both ER stress and TLR stimulation. Knockdown of CHOP in U937 cells significantly reduced the synergistic effects of TLR and ER stress on IL-23p19 expression, but did not affect expression of other LPS-responsive genes. The integration of ER stress signals and the requirement for CHOP in the induction of IL-23 responses was also investigated in a physiological setting: infection of myeloid cells with Chlamydia trachomatis resulted in the expression of CHOP mRNA and induced the binding of CHOP to the IL-23 promoter. Furthermore, knockdown of CHOP significantly reduced the expression of IL-23 in response to this intracellular bacterium. Therefore, the effects of pathogens and other environmental factors on ER stress can profoundly affect the nature of innate and adaptive immune responses.T he mammalian innate immune system detects external threats by identifying components of microorganisms, using pattern recognition receptors (PRR) expressed on macrophages and dendritic cells (DC). Following PRR engagement, DCs link the innate and adaptive immune responses by producing cytokines that modulate T-cell responses.Threats to the internal homeostasis of the cell can be detected within the endoplasmic reticulum (ER) and the unfolded protein response (UPR) is triggered when there is an imbalance between protein synthesis and the folding capacity of the ER (e.g., when protein secretion is rapidly up-regulated) (1). Three sentinel ER proteins, ATF6, PERK, and IRE-1, initiate independent signaling pathways that elicit the UPR; these pathways have both unique and shared gene targets.PERK activation leads to decreased efficiency of protein translation via phosphorylation of eIF2α, but this translation "shut down" also potentiates ATF4 gene expression, resulting in activation of downstream ER stress-response pathways, including expression of C/EBP homologous protein (CHOP) and growth-arrest and DNA damage inducible protein GADD34. If homeostatic processes fail to resolve ER stress, CHOP activates apoptosis (2), whereas GADD34 dephosphorylates eIF2α to allow resumption of protein synthesis and survival (3). Activated IRE-1 acquires RNase activity and splices XBP-1 mRNA, which is then translated into a transcription factor that activates several UPR response genes (4). ...

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Whole-genome sequencing of six dog breeds from continuous altitudes reveals adaptation to high-altitude hypoxia

Gou

et al. 2014

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The hypoxic environment imposes severe selective pressure on species living at high altitude. To understand the genetic bases of adaptation to high altitude in dogs, we performed whole-genome sequencing of 60 dogs including five breeds living at continuous altitudes along the Tibetan Plateau from 800 to 5100 m as well as one European breed. More than 1503 sequencing coverage for each breed provides us with a comprehensive assessment of the genetic polymorphisms of the dogs, including Tibetan Mastiffs. Comparison of the breeds from different altitudes reveals strong signals of population differentiation at the locus of hypoxia-related genes including endothelial Per-Arnt-Sim (PAS) domain protein 1 (EPAS1) and beta hemoglobin cluster. Notably, four novel nonsynonymous mutations specific to high-altitude dogs are identified at EPAS1, one of which occurred at a quite conserved site in the PAS domain. The association testing between EPAS1 genotypes and blood-related phenotypes on additional high-altitude dogs reveals that the homozygous mutation is associated with decreased blood flow resistance, which may help to improve hemorheologic fitness. Interestingly, EPAS1 was also identified as a selective target in Tibetan highlanders, though no amino acid changes were found. Thus, our results not only indicate parallel evolution of humans and dogs in adaptation to high-altitude hypoxia, but also provide a new opportunity to study the role of EPAS1 in the adaptive processes.

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Biallelic RIPK1 mutations in humans cause severe immunodeficiency, arthritis, and intestinal inflammation

Cuchet-Lourenço

Eletto

et al. 2018

Science

203

164

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RIPK1 (receptor-interacting serine/threonine kinase 1) is a master regulator of signaling pathways leading to inflammation and cell death and is of medical interest as a drug target. We report four patients from three unrelated families with complete RIPK1 deficiency caused by rare homozygous mutations. The patients suffered from recurrent infections, early-onset inflammatory bowel disease, and progressive polyarthritis. They had immunodeficiency with lymphopenia and altered production of various cytokines revealed by whole-blood assays. In vitro, RIPK1-deficient cells showed impaired mitogen-activated protein kinase activation and cytokine secretion and were prone to necroptosis. Hematopoietic stem cell transplantation reversed cytokine production defects and resolved clinical symptoms in one patient. Thus, RIPK1 plays a critical role in the human immune system.

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Changxin Wu

Phosphoinositide 3-Kinase δ Gene Mutation Predisposes to Respiratory Infection and Airway Damage

Endoplasmic reticulum stress-induced transcription factor, CHOP, is crucial for dendritic cell IL-23 expression

Whole-genome sequencing of six dog breeds from continuous altitudes reveals adaptation to high-altitude hypoxia

Biallelic RIPK1 mutations in humans cause severe immunodeficiency, arthritis, and intestinal inflammation

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