Single‐cell analyses reveal functional classification of dendritic cells and their potential roles in inflammatory disease

Shi, Qi; Zhuang, Fei; Liu, Ji-Ting; Li, Na; Chen, Yuan-Xiu; Su, Xianbin; Yao, Aihong; Yao, Qing; Han, Yanyan; Li, Shanshan; Qi, Ying‐Xin; Jiang, Zong‐Lai

doi:10.1096/fj.201801489r

Cited by 10 publications

(6 citation statements)

References 44 publications

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“…The anti-inflammatory macrophage marker CLDN1 (Van den Bossche et al, 2012) and acute-phase inflammation resolution marker ANXA3 (Yamanegi et al, 2018) have been previously reported with distinct macrophage functions. The macrophage scavenger receptor 1 ( MSR1 ) has also been shown to be involved in lipid uptake and migration ability of macrophages (Shi et al, 2019). Three noncoding RNAs ( RF00221 [ snoRD43 ], RF00593 [ snoU83B ], and RF01151 [ snoU82P ] were among genes corresponding to ASE inducible SNVs.…”

Section: Resultsmentioning

confidence: 99%

Elimination of Reference Mapping Bias Reveals Robust Immune Related Allele-Specific Expression in Crossbred Sheep

et al. 2019

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Pervasive allelic variation at both gene and single nucleotide level (SNV) between individuals is commonly associated with complex traits in humans and animals. Allele-specific expression (ASE) analysis, using RNA-Seq, can provide a detailed annotation of allelic imbalance and infer the existence of cis-acting transcriptional regulation. However, variant detection in RNA-Seq data is compromised by biased mapping of reads to the reference DNA sequence. In this manuscript, we describe an unbiased standardized computational pipeline for allele-specific expression analysis using RNA-Seq data, which we have adapted and developed using tools available under open license. The analysis pipeline we present is designed to minimize reference bias while providing accurate profiling of allele-specific expression across tissues and cell types. Using this methodology, we were able to profile pervasive allelic imbalance across tissues and cell types, at both the gene and SNV level, in Texel×Scottish Blackface sheep, using the sheep gene expression atlas data set. ASE profiles were pervasive in each sheep and across all tissue types investigated. However, ASE profiles shared across tissues were limited, and instead, they tended to be highly tissue-specific. These tissue-specific ASE profiles may underlie the expression of economically important traits and could be utilized as weighted SNVs, for example, to improve the accuracy of genomic selection in breeding programs for sheep. An additional benefit of the pipeline is that it does not require parental genotypes and can therefore be applied to other RNA-Seq data sets for livestock, including those available on the Functional Annotation of Animal Genomes (FAANG) data portal. This study is the first global characterization of moderate to extreme ASE in tissues and cell types from sheep. We have applied a robust methodology for ASE profiling to provide both a novel analysis of the multi-dimensional sheep gene expression atlas data set and a foundation for identifying the regulatory and expressed elements of the genome that are driving complex traits in livestock.

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Section: Resultsmentioning

confidence: 99%

Elimination of Reference Mapping Bias Reveals Robust Immune Related Allele-Specific Expression in Crossbred Sheep

et al. 2019

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“…In normal renal tissue, cDCs constitute the majority, while monocyte‐derived DCs are absent. At such stable state, DCs are mainly immature, with low expression of costimulatory molecules such as CD80 and CD86, suppressing adaptive T‐ and B‐lymphocytes immunity 161 . However, upon infection, pathogen‐associated molecular patterns, damage‐associated molecular patterns (DAMPs) and inflammatory stimuli facilitate activation and maturation of DCs, which subsequently activate renal macrophages and T cells, thus regulating inflammatory responses and renal injury 162 …”

Section: Dcsmentioning

confidence: 99%

Innate immunity in diabetic nephropathy: Pathogenic mechanisms and therapeutic targets

Chen,

Lu,

et al. 2024

MedComm – Future Medicine

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Diabetic nephropathy (DN) represents a prevalent chronic microvascular complication of diabetes mellitus (DM) and is a major cause of end‐stage renal disease. The anfractuous surrounding of DN pathogenesis and the intricate nature of this metabolic disorder often pose challenges in both the diagnosis and treatment of DN compared to other kidney diseases. Hyperglycaemia in DM predispose vulnerable renal cells into microenvironmental disequilibrium and thereby results in innate immunocytes infiltration including neutrophils, macrophages, myeloid‐derived suppressor cells, dendritic cells, and so forth. These immune cells play dual roles in kidney injury and closely correlated with the degree of proteinuria in DN patients. Additionally, innate immune signaling cascades, initiated by altered metabolic and hemodynamic in diabetic context, are crucial in instigating and perpetuating renal inflammation, which detrimentally contribute to DN pathogenesis. As such, anti‐inflammatory therapies, particularly those targeting innate immunity, hold renoprotective promise in DN. In this article, we reviewed the origin and feature of the above four prominent kidney innate immune cells, analyze their pathogenic role in DN, and discuss potential targeted‐therapeutic strategies, aiming to enhance the current understanding of renal innate immunity and hence help to discover promising therapeutic approaches for DN.

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“…Receptor expression determines the specificity of kidney DCs. CX3CR1 and CCR2 are incorporated into the action of leaving the bone marrow, and CXCR4 helps precursor DCs retention in the marrow (24)(25)(26). But the inflammatory conditions after transplantation possibly alter the migration mechanism to mediate both rejection and tolerance, which remain unidentified and might be potential intervention sites in the future (Figure 1).…”

Section: Dc-linked Pathological Procedures In Renal Transplantation the Origin And Migration Of Dcs In Kidney Allograft Rejectionmentioning

confidence: 99%

“…With no stimuli, immature kidney DCs inhibit T and B lymphocytes, which also can coordinate tolerance (25). Danger-associated molecular patterns occur when ischemia and reperfusion happen, activating TLR4 (toll-like receptor 4) and leading to the maturation of DCs (27)(28)(29).…”

Section: The Maturation Of Dcs In Kidney Allograft Rejectionmentioning

confidence: 99%

Dendritic Cells: Versatile Players in Renal Transplantation

et al. 2021

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Dendritic cells (DCs) induce and regulate adaptive immunity through migrating and maturing in the kidney. In this procedure, they can adopt different phenotypes—rejection-associated DCs promote acute or chronic injury renal grafts while tolerogenic DCs suppress the overwhelmed inflammation preventing damage to renal functionality. All the subsets interact with effector T cells and regulatory T cells (Tregs) stimulated by the ischemia–reperfusion procedure, although the classification corresponding to different effects remains controversial. Thus, in this review, we discuss the origin, maturation, and pathological effects of DCs in the kidney. Then we summarize the roles of divergent DCs in renal transplantation: taking both positive and negative stages in ischemia–reperfusion injury (IRI), switching phenotypes to induce acute or chronic rejection, and orchestrating surface markers for allograft tolerance via alterations in metabolism. In conclusion, we prospect that multidimensional transcriptomic analysis will revolute researches on renal transplantation by addressing the elusive mononuclear phagocyte classification and providing a holistic view of DC ontogeny and subpopulations.

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Single‐cell analyses reveal functional classification of dendritic cells and their potential roles in inflammatory disease

Cited by 10 publications

References 44 publications

Elimination of Reference Mapping Bias Reveals Robust Immune Related Allele-Specific Expression in Crossbred Sheep

Elimination of Reference Mapping Bias Reveals Robust Immune Related Allele-Specific Expression in Crossbred Sheep

Innate immunity in diabetic nephropathy: Pathogenic mechanisms and therapeutic targets

Dendritic Cells: Versatile Players in Renal Transplantation

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