Your search keyword '"Single-cell transcriptomes"' showing total 18 results

1. Tumour heterogeneity and personalized treatment screening based on single-cell transcriptomics

Author

Zhang, Xinying, Xie, Jiajie, Yang, Zixin, Yu, Carisa Kwok Wai, Hu, Yaohua, and Qin, Jing

Published

2025

2. A time-resolved single-cell roadmap of the logic driving anterior neural crest diversification from neural border to migration stages.

Author

Kotov, Aleksandr, Seal, Subham, Alkobtawi, Mansour, Kappès, Vincent, Ruiz, Sofia, Arbès, Hugo, Harland, Richard, Peshkin, Leonid, and Monsoro-Burq, Anne

Subjects

Xenopus, gene regulatory networks, neural border, neural crest, single-cell transcriptomes, Animals, Neural Crest, Single-Cell Analysis, Xenopus laevis, Gene Expression Regulation, Developmental, Cell Movement, Gene Regulatory Networks, Transcriptome, Gastrulation, Neural Plate, Epithelial-Mesenchymal Transition, Embryo, Nonmammalian, Neurulation, Cell Differentiation

Abstract

Neural crest cells exemplify cellular diversification from a multipotent progenitor population. However, the full sequence of early molecular choices orchestrating the emergence of neural crest heterogeneity from the embryonic ectoderm remains elusive. Gene-regulatory-networks (GRN) govern early development and cell specification toward definitive neural crest. Here, we combine ultradense single-cell transcriptomes with machine-learning and large-scale transcriptomic and epigenomic experimental validation of selected trajectories, to provide the general principles and highlight specific features of the GRN underlying neural crest fate diversification from induction to early migration stages using Xenopus frog embryos as a model. During gastrulation, a transient neural border zone state precedes the choice between neural crest and placodes which includes multiple converging gene programs. During neurulation, transcription factor connectome, and bifurcation analyses demonstrate the early emergence of neural crest fates at the neural plate stage, alongside an unbiased multipotent-like lineage persisting until epithelial-mesenchymal transition stage. We also decipher circuits driving cranial and vagal neural crest formation and provide a broadly applicable high-throughput validation strategy for investigating single-cell transcriptomes in vertebrate GRNs in development, evolution, and disease.

Published

2024

3. Murine skin-derived multipotent papillary dermal fibroblast progenitors show germline potential in vitro

Author

Wei Ge, Yuan-Chao Sun, Tian Qiao, Hai-Xia Liu, Tao-Ran He, Jun-Jie Wang, Chun-Lei Chen, Shun-Feng Cheng, Paul W. Dyce, Massimo De Felici, and Wei Shen

Subjects

Skin-derived stem cells, Papillary dermal fibroblast progenitors, Single-cell transcriptomes, Spermatogonial stem cells like cells, Medicine (General), R5-920, Biochemistry, QD415-436

Abstract

Abstract Background Many laboratories have described the in vitro isolation of multipotent cells with stem cell properties from the skin of various species termed skin-derived stem cells (SDSCs). However, the cellular origin of these cells and their capability to give rise, among various cell types, to male germ cells, remain largely unexplored. Methods SDSCs were isolated from newborn mice skin, and then differentiated into primordial germ cell-like cells (PGCLCs) in vitro. Single-cell RNA sequencing (scRNA-seq) was then applied to dissect the cellular origin of SDSCs using cells isolated from newborn mouse skin and SDSC colonies. Based on an optimized culture strategy, we successfully generated spermatogonial stem cell-like cells (SSCLCs) in vitro. Results Here, using scRNA-seq and analyzing the profile of 7543 single-cell transcriptomes from newborn mouse skin and SDSCs, we discovered that they mainly consist of multipotent papillary dermal fibroblast progenitors (pDFPs) residing in the dermal layer. Moreover, we found that epidermal growth factor (EGF) signaling is pivotal for the capability of these progenitors to proliferate and form large colonies in vitro. Finally, we optimized the protocol to efficiently generate PGCLCs from SDSCs. Furthermore, PGCLCs were induced into SSCLCs and these SSCLCs showed meiotic potential when cultured with testicular organoids. Conclusions Our findings here identify pDFPs as SDSCs derived from newborn skin and show for the first time that such precursors can be induced to generate cells of the male germline.

Published

2023

4. PreCanCell: An ensemble learning algorithm for predicting cancer and non-cancer cells from single-cell transcriptomes

Author

Tao Yang, Qiyu Yan, Rongzhuo Long, Zhixian Liu, and Xiaosheng Wang

Subjects

Ensemble learning algorithm, Single-cell transcriptomes, Cancer and non-cancer cells, Tumor marker genes, Non-tumor marker genes, Biotechnology, TP248.13-248.65

Abstract

We propose PreCanCell, a novel algorithm for predicting malignant and non-malignant cells from single-cell transcriptomes. PreCanCell first identifies the differentially expressed genes (DEGs) between malignant and non-malignant cells commonly in five common cancer types-associated single-cell transcriptome datasets. The five common cancer types include renal cell carcinoma (RCC), head and neck squamous cell carcinoma (HNSCC), melanoma, lung adenocarcinoma (LUAD), and breast cancer (BC). With each of the five datasets as the training set and the DEGs as the features, a single cell is classified as malignant or non-malignant by k-NN (k = 5). Finally, the single cell is determined as malignant or non-malignant by the majority vote of the five k-NN classification results. We tested the predictive performance of PreCanCell in 19 single-cell datasets, and reported classification accuracy, sensitivity, specificity, balanced accuracy (the average of sensitivity and specificity) and the area under the receiver operating characteristic curve (AUROC). In all these datasets, PreCanCell achieved above 0.8 accuracy, sensitivity, specificity, balanced accuracy and AUROC. Finally, we compared the predictive performance of PreCanCell with that of seven other algorithms, including CHETAH, SciBet, SCINA, scmap-cell, scmap-cluster, SingleR, and ikarus. Compared to these algorithms, PreCanCell displays the advantages of higher accuracy and simpler implementation. We have developed an R package for the PreCanCell algorithm, which is available at https://github.com/WangX-Lab/PreCanCell.

Published

2023

5. Transcriptomic landscape reveals germline potential of porcine skin-derived multipotent dermal fibroblast progenitors.

Author

Liu, Wen-Xiang, Li, Chun-Xiao, Xie, Xin-Xiang, Ge, Wei, Qiao, Tian, Sun, Xiao-Feng, Shen, Wei, and Cheng, Shun-Feng

Abstract

According to estimations, approximately about 15% of couples worldwide suffer from infertility, in which individuals with azoospermia or oocyte abnormalities cannot be treated with assisted reproductive technology. The skin-derived stem cells (SDSCs) differentiation into primordial germ cell-like cells (PGCLCs) is one of the major breakthroughs in the field of stem cells intervention for infertility treatment in recent years. However, the cellular origin of SDSCs and their dynamic changes in transcription profile during differentiation into PGCLCs in vitro remain largely undissected. Here, the results of single-cell RNA sequencing indicated that porcine SDSCs are mainly derived from multipotent dermal fibroblast progenitors (MDFPs), which are regulated by growth factors (EGF/bFGF). Importantly, porcine SDSCs exhibit pluripotency for differentiating into three germ layers and can effectively differentiate into PGCLCs through complex transcriptional regulation involving histone modification. Moreover, this study also highlights that porcine SDSC-derived PGCLCs specification exhibit conservation with the human primordial germ cells lineage and that its proliferation is mediated by the MAPK signaling pathway. Our findings provide substantial novel insights into the field of regenerative medicine in which stem cells differentiate into germ cells in vitro, as well as potential therapeutic effects in individuals with azoospermia and/or defective oocytes. [ABSTRACT FROM AUTHOR]

Published

2023

6. Murine skin-derived multipotent papillary dermal fibroblast progenitors show germline potential in vitro.

Author

Ge, Wei, Sun, Yuan-Chao, Qiao, Tian, Liu, Hai-Xia, He, Tao-Ran, Wang, Jun-Jie, Chen, Chun-Lei, Cheng, Shun-Feng, Dyce, Paul W., De Felici, Massimo, and Shen, Wei

Subjects

MULTIPOTENT stem cells, EPIDERMAL growth factor, STEM cells, RNA sequencing, FIBROBLASTS

Abstract

Background: Many laboratories have described the in vitro isolation of multipotent cells with stem cell properties from the skin of various species termed skin-derived stem cells (SDSCs). However, the cellular origin of these cells and their capability to give rise, among various cell types, to male germ cells, remain largely unexplored. Methods: SDSCs were isolated from newborn mice skin, and then differentiated into primordial germ cell-like cells (PGCLCs) in vitro. Single-cell RNA sequencing (scRNA-seq) was then applied to dissect the cellular origin of SDSCs using cells isolated from newborn mouse skin and SDSC colonies. Based on an optimized culture strategy, we successfully generated spermatogonial stem cell-like cells (SSCLCs) in vitro. Results: Here, using scRNA-seq and analyzing the profile of 7543 single-cell transcriptomes from newborn mouse skin and SDSCs, we discovered that they mainly consist of multipotent papillary dermal fibroblast progenitors (pDFPs) residing in the dermal layer. Moreover, we found that epidermal growth factor (EGF) signaling is pivotal for the capability of these progenitors to proliferate and form large colonies in vitro. Finally, we optimized the protocol to efficiently generate PGCLCs from SDSCs. Furthermore, PGCLCs were induced into SSCLCs and these SSCLCs showed meiotic potential when cultured with testicular organoids. Conclusions: Our findings here identify pDFPs as SDSCs derived from newborn skin and show for the first time that such precursors can be induced to generate cells of the male germline. [ABSTRACT FROM AUTHOR]

Published

2023

7. Pre-existing Castration-resistant Prostate Cancer–like Cells in Primary Prostate Cancer Promote Resistance to Hormonal Therapy.

Author

Cheng, Qing, Butler, William, Zhou, Yinglu, Zhang, Hong, Tang, Lu, Perkinson, Kathryn, Chen, Xufeng, Jiang, Xiaoyin "Sara", McCall, Shannon J., Inman, Brant A., and Huang, Jiaoti

Subjects

*PROSTATE cancer, *CASTRATION-resistant prostate cancer, *HORMONE therapy, *ANDROGEN receptors, *ANDROGEN deprivation therapy, *CANCER relapse

Abstract

We discovered that rare tumor cells in primary prostate cancer possess genomic features of castration-resistant prostate cancer. This represents a novel resistance mechanism distinct from the widely held notion that prostate cancer becomes resistant to hormonal therapy through a therapy-induced adaptation mechanism. Hormonal therapy targeting the androgen receptor inhibits prostate cancer (PCa), but the tumor eventually recurs as castration-resistant prostate cancer (CRPC). To understand the mechanisms by which subclones within early PCa develop into CRPC. We isolated epithelial cells from fresh human PCa cases, including primary adenocarcinoma, locally recurrent CRPC, and metastatic CRPC, and utilized single-cell RNA sequencing to identify subpopulations destined to become either CRPC-adeno or small cell neuroendocrine carcinoma (SCNC). We revealed dynamic transcriptional reprogramming that promotes disease progression among 23 226 epithelial cells using single-cell RNA sequencing, and validated subset-specific progression using immunohistochemistry and large cohorts of publically available genomic data. We identified a small fraction of highly plastic CRPC-like cells in hormone-naïve early PCa and demonstrated its correlation with biochemical recurrence and distant metastasis, independent of clinical characteristics. We show that progression toward castration resistance was initiated from subtype-specific lineage plasticity and clonal expansion of pre-existing neuroendocrine and CRPC-like cells in early PCa. CRPC-like cells are present early in the development of PCa and are not exclusively the result of acquired evolutionary selection during androgen deprivation therapy. The lethal CRPC and SCNC phenotypes should be targeted earlier in the disease course of patients with PCa. Here, we report the presence of pre-existing castration-resistant prostate cancer (CRPC)-like cells in primary prostate cancer, which represents a novel castration-resistant mechanism different from the adaptation mechanism after androgen deprivation therapy (ADT). Patients whose tumors harbor increased pre-existing neuroendocrine and CRPC-like cells may become rapidly resistant to ADT and may require aggressive early intervention. [ABSTRACT FROM AUTHOR]

Published

2022

8. universal approach for integrating super large-scale single-cell transcriptomes by exploring gene rankings.

Author

Shen, Hongru, Shen, Xilin, Feng, Mengyao, Wu, Dan, Zhang, Chao, Yang, Yichen, Yang, Meng, Hu, Jiani, Liu, Jilei, Wang, Wei, Li, Yang, Zhang, Qiang, Yang, Jilong, Chen, Kexin, and Li, Xiangchun

Subjects

*TRANSCRIPTOMES, *RNA sequencing, *KNOWLEDGE transfer, *GENES, *TRANSLATIONAL research

Abstract

Advancement in single-cell RNA sequencing leads to exponential accumulation of single-cell expression data. However, there is still lack of tools that could integrate these unlimited accumulations of single-cell expression data. Here, we presented a universal approach iSEEEK for integrating super large-scale single-cell expression via exploring expression rankings of top-expressing genes. We developed iSEEEK with 11.9 million single cells. We demonstrated the efficiency of iSEEEK with canonical single-cell downstream tasks on five heterogenous datasets encompassing human and mouse samples. iSEEEK achieved good clustering performance benchmarked against well-annotated cell labels. In addition, iSEEEK could transfer its knowledge learned from large-scale expression data on new dataset that was not involved in its development. iSEEEK enables identification of gene–gene interaction networks that are characteristic of specific cell types. Our study presents a simple and yet effective method to integrate super large-scale single-cell transcriptomes and would facilitate translational single-cell research from bench to bedside. [ABSTRACT FROM AUTHOR]

Published

2022

9. Cell-specific expression of lung disease risk-related genes in the human small airway epithelium

Author

Wu-lin Zuo, Mahboubeh R. Rostami, Shushila A. Shenoy, Michelle G. LeBlanc, Jacqueline Salit, Yael Strulovici-Barel, Sarah L. O’Beirne, Robert J. Kaner, Philip L. Leopold, Jason G. Mezey, Juergen Schymeinsky, Karsten Quast, Sudha Visvanathan, Jay S. Fine, Matthew J. Thomas, and Ronald G. Crystal

Subjects

Single-cell transcriptomes, Epithelial cells, Immune/inflammatory cells, Inherited and acquired pulmonary disorders, Cigarette smoking, Diseases of the respiratory system, RC705-779

Abstract

Abstract Background The human small airway epithelium (SAE) plays a central role in the early events in the pathogenesis of most inherited and acquired lung disorders. Little is known about the molecular phenotypes of the specific cell populations comprising the SAE in humans, and the contribution of SAE specific cell populations to the risk for lung diseases. Methods Drop-seq single-cell RNA-sequencing was used to characterize the transcriptome of single cells from human SAE of nonsmokers and smokers by bronchoscopic brushing. Results Eleven distinct cell populations were identified, including major and rare epithelial cells, and immune/inflammatory cells. There was cell type-specific expression of genes relevant to the risk of the inherited pulmonary disorders, genes associated with risk of chronic obstructive pulmonary disease and idiopathic pulmonary fibrosis and (non-mutated) driver genes for lung cancers. Cigarette smoking significantly altered the cell type-specific transcriptomes and disease risk-related genes. Conclusions This data provides new insights into the possible contribution of specific lung cells to the pathogenesis of lung disorders.

Published

2020

10. Clinical and research applications of multiplexed immunohistochemistry and in situ hybridization.

Author

McGinnis, Lisa M., Ibarra-Lopez, Veronica, Rost, Sandra, and Ziai, James

Subjects

IN situ hybridization, MEDICAL research, IMMUNOHISTOCHEMISTRY, BIOMARKERS, PROTEIN expression

Abstract

Over the past decade, invention and adoption of novel multiplexing technologies for tissues have made increasing impacts in basic and translational research and, to a lesser degree, clinical medicine. Platforms capable of highly multiplexed immunohistochemistry or in situ RNA measurements promise evaluation of protein or RNA targets at levels of plex and sensitivity logs above traditional methods -- all with preservation of spatial context. These methods promise objective biomarker quantification, markedly increased sensitivity, and single-cell resolution. Increasingly, development of novel technologies is enabling multi-omic interrogations with spatial correlation of RNA and protein expression profiles in the same sample. Such sophisticated methods will provide unprecedented insights into tissue biology, biomarker science, and, ultimately, patient health. However, this sophistication comes at significant cost, requiring extensive time, practical knowledge, and resources to implement. This review will describe the technical features, advantages, and limitations of currently available multiplexed immunohistochemistry and spatial transcriptomic platforms. [ABSTRACT FROM AUTHOR]

Published

2021

11. Cell-specific expression of lung disease risk-related genes in the human small airway epithelium.

Author

Zuo, Wu-lin, Rostami, Mahboubeh R., Shenoy, Shushila A., LeBlanc, Michelle G., Salit, Jacqueline, Strulovici-Barel, Yael, O'Beirne, Sarah L., Kaner, Robert J., Leopold, Philip L., Mezey, Jason G., Schymeinsky, Juergen, Quast, Karsten, Visvanathan, Sudha, Fine, Jay S., Thomas, Matthew J., and Crystal, Ronald G.

Subjects

LUNG diseases, OBSTRUCTIVE lung diseases, HUMAN genes, SMOKING, CELL populations

Abstract

Background: The human small airway epithelium (SAE) plays a central role in the early events in the pathogenesis of most inherited and acquired lung disorders. Little is known about the molecular phenotypes of the specific cell populations comprising the SAE in humans, and the contribution of SAE specific cell populations to the risk for lung diseases.Methods: Drop-seq single-cell RNA-sequencing was used to characterize the transcriptome of single cells from human SAE of nonsmokers and smokers by bronchoscopic brushing.Results: Eleven distinct cell populations were identified, including major and rare epithelial cells, and immune/inflammatory cells. There was cell type-specific expression of genes relevant to the risk of the inherited pulmonary disorders, genes associated with risk of chronic obstructive pulmonary disease and idiopathic pulmonary fibrosis and (non-mutated) driver genes for lung cancers. Cigarette smoking significantly altered the cell type-specific transcriptomes and disease risk-related genes.Conclusions: This data provides new insights into the possible contribution of specific lung cells to the pathogenesis of lung disorders. [ABSTRACT FROM AUTHOR]

Published

2020

12. Non-classical circulating monocytes expressing high levels of microsomal prostaglandin E2 synthase-1 tag an aberrant IFN-response in systemic sclerosis

Author

Junta de Andalucía, Ministerio de Ciencia e Innovación (España), European Commission, Instituto de Salud Carlos III, Villanueva-Martín, Gonzalo, Acosta-Herrera, Marialbert, Carmona, Elio G., Kerick, Martin, Ortego-Centeno, Norberto, Callejas-Rubio, José Luis, Mages, Norbert, Börno, Stefan, Timmermann, Bernd, Bossini-Castillo, L., Martin, Javier, Klages, Sven, Junta de Andalucía, Ministerio de Ciencia e Innovación (España), European Commission, Instituto de Salud Carlos III, Villanueva-Martín, Gonzalo, Acosta-Herrera, Marialbert, Carmona, Elio G., Kerick, Martin, Ortego-Centeno, Norberto, Callejas-Rubio, José Luis, Mages, Norbert, Börno, Stefan, Timmermann, Bernd, Bossini-Castillo, L., Martin, Javier, and Klages, Sven

Abstract

Systemic sclerosis (SSc) is a complex disease that affects the connective tissue, causing fibrosis. SSc patients show altered immune cell composition and activation in the peripheral blood (PB). PB monocytes (Mos) are recruited into tissues where they differentiate into macrophages, which are directly involved in fibrosis. To understand the role of CD14+ PB Mos in SSc, a single-cell transcriptome analysis (scRNA-seq) was conducted on 8 SSc patients and 8 controls. Using unsupervised clustering methods, CD14+ cells were assigned to 11 clusters, which added granularity to the known monocyte subsets: classical (cMos), intermediate (iMos) and non-classical Mos (ncMos) or type 2 dendritic cells. NcMos were significantly overrepresented in SSc patients and showed an active IFN-signature and increased expression levels of PTGES, in addition to monocyte motility and adhesion markers. We identified a SSc-related cluster of IRF7+ STAT1+ iMos with an aberrant IFN-response. Finally, a depletion of M2 polarised cMos in SSc was observed. Our results highlighted the potential of PB Mos as biomarkers for SSc and provided new possibilities for putative drug targets for modulating the innate immune response in SSc.

Published

2023

13. FASEB: The mechanisms in plant development.

Author

Fouracre, Jim P., Kohler, Andrea, Amador, Gabriel, and Fung, Hannah F.

Subjects

*PLANT development, *DEVELOPMENTAL biology, *BROCCOLI

Abstract

Keywords: emerging model systems; live imaging; modelling; plant development; single-cell transcriptomes Analyses of single-cell RNA-seq data have allowed the Efroni laboratory to identify populations of cells with unique transcriptomic signatures in aerial root primordia that correspond to different domains of conventional roots. Bert De Rybel (VIB/Ghent University, Belgium) described his use of single-cell RNA sequencing to map cell lineages in the I Arabidopsis i root, with the goal of calculating the developmental trajectories of cells within different tissue types. CRISPR-induced mutations to cyclin-dependent kinases and auxin-response factors specifically within lateral roots have led to insights about the relationship between lateral and primary roots, and the sequence of expression of key lateral root regulators. [Extracted from the article]

Published

2020

14. Immune pathway activation in neurons triggers neural damage after stroke.

Author

Wu, Dong-mei, Liu, Ji-ping, Liu, Jie, Ge, Wei-hong, Wu, Su-zhen, Zeng, Chi-jia, Liang, Jia, Liu, KeJian, Lin, Quan, Hong, Xiao-wu, Sun, Yi Eve, and Lu, Jun

Abstract

Ischemic brain injury is a severe medical condition with high incidences in elderly people without effective treatment for the resulting neural damages. Using a unilateral mouse stroke model, we analyze single-cell transcriptomes of ipsilateral and contralateral cortical penumbra regions to objectively reveal molecular events with single-cell resolution at 4 h and 1, 3, and 7 days post-injury. Here, we report that neurons are among the first cells that sense the lack of blood supplies by elevated expression of CCAAT/enhancer-binding protein β (C/EBPβ). To our surprise, the canonical inflammatory cytokine gene targets for C/EBPβ, including interleukin-1β (IL-1β) and tumor necrosis factor α (TNF-α), are subsequently induced also in neuronal cells. Neuronal-specific silencing of C/EBPβ or IL-1β and TNF-α substantially alleviates downstream inflammatory injury responses and is profoundly neural protective. Taken together, our findings reveal a neuronal inflammatory mechanism underlying early pathological triggers of ischemic brain injury. [Display omitted] • Single-cell transcriptomic analyses reveal molecular events after MCAO • Neurons are among the first cells that sense ischemia by elevated C/EBPβ expression • Neuronal-specific silencing of C/EBPβ or IL-1β and TNF-α reduced ischemic injury • Neuronal C/EBPβ is a potential target for the treatment of ischemic brain injury Single-cell transcriptomic analyses reveal molecular events after hypoxic ischemia. Wu et al. show that neurons respond acutely to ischemic injury by increasing expression of C/EBPβ, which triggers inflammatory brain damage by elevating expression of TNF-α and IL-1β in neurons. [ABSTRACT FROM AUTHOR]

Published

2023

15. Influence of Cell-type Ratio on Spatially Resolved Single-cell Transcriptomes using the Tangram Algorithm: Based on Implementation on Single-Cell and MxIF Data.

Author

Cui C, Bao S, Li J, Deng R, Remedios LW, Asad Z, Chiron S, Lau KS, Wang Y, Coburn LA, Wilson KT, Roland JT, Landman BA, Liu Q, and Huo Y

Abstract

The Tangram algorithm is a benchmarking method of aligning single-cell (sc/snRNA-seq) data to various forms of spatial data collected from the same region. With this data alignment, the annotation of the single-cell data can be projected to spatial data. However, the cell composition (cell-type ratio) of the single-cell data and spatial data might be different because of heterogeneous cell distribution. Whether the Tangram algorithm can be adapted when the two data have different cell-type ratios has not been discussed in previous works. In our practical application that maps the cell-type classification results of single-cell data to the Multiplex immunofluorescence (MxIF) spatial data, cell-type ratios were different, though they were sampled from adjacent areas. In this work, both simulation and empirical validation were conducted to quantitatively explore the impact of the mismatched cell-type ratio on the Tangram mapping in different situations. Results show that the cell-type difference has a negative influence on classification accuracy.

Published

2023

16. Cell-specific expression of lung disease risk-related genes in the human small airway epithelium

Author

M.J. Thomas, Sarah L. O’Beirne, Yael Strulovici-Barel, Juergen Schymeinsky, Philip L. Leopold, Mahboubeh Rostami, Robert J. Kaner, Wu-Lin Zuo, Michelle G. LeBlanc, Karsten Quast, Jay S. Fine, Sudha Visvanathan, Ronald G. Crystal, Jacqueline Salit, Shushila A. Shenoy, and Jason G. Mezey

Subjects

0301 basic medicine, Lung Diseases, Lung Neoplasms, Cell, Gene Expression, Respiratory Mucosa, Epithelial cells, Cigarette Smoking, Lung Disorder, Pathogenesis, Transcriptome, 03 medical and health sciences, Idiopathic pulmonary fibrosis, Pulmonary Disease, Chronic Obstructive, 0302 clinical medicine, Immune system, Immune/inflammatory cells, Bronchoscopy, medicine, Inherited and acquired pulmonary disorders, Humans, Single-cell transcriptomes, Genetic Testing, lcsh:RC705-779, Lung, business.industry, Sequence Analysis, RNA, Research, lcsh:Diseases of the respiratory system, medicine.disease, 030104 developmental biology, medicine.anatomical_structure, 030228 respiratory system, Immunology, Respiratory epithelium, Airway Remodeling, business

Abstract

Background The human small airway epithelium (SAE) plays a central role in the early events in the pathogenesis of most inherited and acquired lung disorders. Little is known about the molecular phenotypes of the specific cell populations comprising the SAE in humans, and the contribution of SAE specific cell populations to the risk for lung diseases. Methods Drop-seq single-cell RNA-sequencing was used to characterize the transcriptome of single cells from human SAE of nonsmokers and smokers by bronchoscopic brushing. Results Eleven distinct cell populations were identified, including major and rare epithelial cells, and immune/inflammatory cells. There was cell type-specific expression of genes relevant to the risk of the inherited pulmonary disorders, genes associated with risk of chronic obstructive pulmonary disease and idiopathic pulmonary fibrosis and (non-mutated) driver genes for lung cancers. Cigarette smoking significantly altered the cell type-specific transcriptomes and disease risk-related genes. Conclusions This data provides new insights into the possible contribution of specific lung cells to the pathogenesis of lung disorders.

Published

2020

17. Single-Cell RNA-Seq Mapping of Human Thymopoiesis Reveals Lineage Specification Trajectories and a Commitment Spectrum in T Cell Development.

Author

Le J, Park JE, Ha VL, Luong A, Branciamore S, Rodin AS, Gogoshin G, Li F, Loh YE, Camacho V, Patel SB, Welner RS, and Parekh C

Subjects

Animals, Biomarkers, Computational Biology, Gene Expression Profiling, Gene Expression Regulation, Developmental, High-Throughput Nucleotide Sequencing methods, Humans, Immunophenotyping, Mice, Single-Cell Analysis, T-Lymphocytes cytology, Thymocytes cytology, Transcriptome, Cell Differentiation genetics, Cell Lineage genetics, Lymphopoiesis genetics, T-Lymphocytes metabolism, Thymocytes metabolism

Abstract

The challenges in recapitulating in vivo human T cell development in laboratory models have posed a barrier to understanding human thymopoiesis. Here, we used single-cell RNA sequencing (sRNA-seq) to interrogate the rare CD34 + progenitor and the more differentiated CD34 - fractions in the human postnatal thymus. CD34 + thymic progenitors were comprised of a spectrum of specification and commitment states characterized by multilineage priming followed by gradual T cell commitment. The earliest progenitors in the differentiation trajectory were CD7 - and expressed a stem-cell-like transcriptional profile, but had also initiated T cell priming. Clustering analysis identified a CD34 + subpopulation primed for the plasmacytoid dendritic lineage, suggesting an intrathymic dendritic specification pathway. CD2 expression defined T cell commitment stages where loss of B cell potential preceded that of myeloid potential. These datasets delineate gene expression profiles spanning key differentiation events in human thymopoiesis and provide a resource for the further study of human T cell development., Competing Interests: Declaration of Interests The authors declare no competing interests., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

18. Transcriptional Architecture of Synaptic Communication Delineates GABAergic Neuron Identity.

Author

Paul, Anirban, Crow, Megan, Raudales, Ricardo, He, Miao, Gillis, Jesse, and Huang, Z. Josh

Subjects

*NEURAL circuitry, *GABAERGIC neurons, *TRANSCRIPTION factors, *GENOMICS, *CELL adhesion

Abstract

Summary Understanding the organizational logic of neural circuits requires deciphering the biological basis of neuronal diversity and identity, but there is no consensus on how neuron types should be defined. We analyzed single-cell transcriptomes of a set of anatomically and physiologically characterized cortical GABAergic neurons and conducted a computational genomic screen for transcriptional profiles that distinguish them from one another. We discovered that cardinal GABAergic neuron types are delineated by a transcriptional architecture that encodes their synaptic communication patterns. This architecture comprises 6 categories of ∼40 gene families, including cell-adhesion molecules, transmitter-modulator receptors, ion channels, signaling proteins, neuropeptides and vesicular release components, and transcription factors. Combinatorial expression of select members across families shapes a multi-layered molecular scaffold along the cell membrane that may customize synaptic connectivity patterns and input-output signaling properties. This molecular genetic framework of neuronal identity integrates cell phenotypes along multiple axes and provides a foundation for discovering and classifying neuron types. [ABSTRACT FROM AUTHOR]

Published

2017