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Your search keyword '"Shekhar, Karthik"' showing total 4 results
Start Over Author "Shekhar, Karthik" Journal proceedings of the national academy of sciences of the united states of america
4 results on '"Shekhar, Karthik"'

1. Cell atlas of aqueous humor outflow pathways in eyes of humans and four model species provides insight into glaucoma pathogenesis

Author

van Zyl, Tavé, Yan, Wenjun, McAdams, Alexi, Peng, Yi-Rong, Shekhar, Karthik, Regev, Aviv, Juric, Dejan, and Sanes, Joshua R

Subjects
Neurodegenerative, Eye Disease and Disorders of Vision, Neurosciences, Aging, Genetics, Eye, Animals, Aqueous Humor, Biomarkers, Disease Models, Animal, Glaucoma, Humans, Intraocular Pressure, Macaca fascicularis, Macaca mulatta, Mice, Species Specificity, Swine, Trabecular Meshwork, Transcriptome, trabecular meshwork, ciliary muscle, macaque, pig, mouse
Abstract

Increased intraocular pressure (IOP) represents a major risk factor for glaucoma, a prevalent eye disease characterized by death of retinal ganglion cells; lowering IOP is the only proven treatment strategy to delay disease progression. The main determinant of IOP is the equilibrium between production and drainage of aqueous humor, with compromised drainage generally viewed as the primary contributor to dangerous IOP elevations. Drainage occurs through two pathways in the anterior segment of the eye called conventional and uveoscleral. To gain insights into the cell types that comprise these pathways, we used high-throughput single-cell RNA sequencing (scRNAseq). From ∼24,000 single-cell transcriptomes, we identified 19 cell types with molecular markers for each and used histological methods to localize each type. We then performed similar analyses on four organisms used for experimental studies of IOP dynamics and glaucoma: cynomolgus macaque (Macaca fascicularis), rhesus macaque (Macaca mulatta), pig (Sus scrofa), and mouse (Mus musculus). Many human cell types had counterparts in these models, but differences in cell types and gene expression were evident. Finally, we identified the cell types that express genes implicated in glaucoma in all five species. Together, our results provide foundations for investigating the pathogenesis of glaucoma and for using model systems to assess mechanisms and potential interventions.

Published
2020

2. Continuous immunotypes describe human immune variation and predict diverse responses

Author

Kaczorowski, Kevin J, Shekhar, Karthik, Nkulikiyimfura, Dieudonné, Dekker, Cornelia L, Maecker, Holden, Davis, Mark M, Chakraborty, Arup K, and Brodin, Petter

Subjects
Biomedical and Clinical Sciences, Immunology, Clinical Research, Aging, Underpinning research, 1.1 Normal biological development and functioning, Inflammatory and immune system, Cohort Studies, Cytomegalovirus Infections, Flow Cytometry, Humans, Immune System, Immune System Phenomena, Immunity, Cellular, Leukocytes, Mononuclear, human immune variation, immune cell composition, systems immunology, aging
Abstract

The immune system consists of many specialized cell populations that communicate with each other to achieve systemic immune responses. Our analyses of various measured immune cell population frequencies in healthy humans and their responses to diverse stimuli show that human immune variation is continuous in nature, rather than characterized by discrete groups of similar individuals. We show that the same three key combinations of immune cell population frequencies can define an individual's immunotype and predict a diverse set of functional responses to cytokine stimulation. We find that, even though interindividual variations in specific cell population frequencies can be large, unrelated individuals of younger age have more homogeneous immunotypes than older individuals. Across age groups, cytomegalovirus seropositive individuals displayed immunotypes characteristic of older individuals. The conceptual framework for defining immunotypes suggested by our results could guide the development of better therapies that appropriately modulate collective immunotypes, rather than individual immune components.

Published
2017

3. Automatic Classification of Cellular Expression by Nonlinear Stochastic Embedding (ACCENSE)

Author

Shekhar, Karthik, Brodin, Petter, Davis, Mark M, and Chakraborty, Arup K

Subjects
Biochemistry and Cell Biology, Biological Sciences, Animals, Artificial Intelligence, Automation, CD8-Positive T-Lymphocytes, Computer Simulation, Flow Cytometry, Gene Expression Profiling, Gene Expression Regulation, Genetic Markers, Immunologic Memory, Immunophenotyping, Mice, Phenotype, Probability, Signal Processing, Computer-Assisted, Stochastic Processes, Time Factors, immunophenotyping, machine learning, class discovery, CyTOF, FACS
Abstract

Mass cytometry enables an unprecedented number of parameters to be measured in individual cells at a high throughput, but the large dimensionality of the resulting data severely limits approaches relying on manual "gating." Clustering cells based on phenotypic similarity comes at a loss of single-cell resolution and often the number of subpopulations is unknown a priori. Here we describe ACCENSE, a tool that combines nonlinear dimensionality reduction with density-based partitioning, and displays multivariate cellular phenotypes on a 2D plot. We apply ACCENSE to 35-parameter mass cytometry data from CD8(+) T cells derived from specific pathogen-free and germ-free mice, and stratify cells into phenotypic subpopulations. Our results show significant heterogeneity within the known CD8(+) T-cell subpopulations, and of particular note is that we find a large novel subpopulation in both specific pathogen-free and germ-free mice that has not been described previously. This subpopulation possesses a phenotypic signature that is distinct from conventional naive and memory subpopulations when analyzed by ACCENSE, but is not distinguishable on a biaxial plot of standard markers. We are able to automatically identify cellular subpopulations based on all proteins analyzed, thus aiding the full utilization of powerful new single-cell technologies such as mass cytometry.

Published
2014

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