0000000000378973

AUTHOR

Saumyadipta Pyne

showing 3 related works from this author

Single-Cell Transcriptional Profiling of Cells Derived From Regenerating Alveolar Ducts

2020

Lung regeneration occurs in a variety of adult mammals after surgical removal of one lung (pneumonectomy). Previous studies of murine post-pneumonectomy lung growth have identified regenerative “hotspots” in subpleural alveolar ducts; however, the cell-types participating in this process remain unclear. To identify the single cells participating in post-pneumonectomy lung growth, we used laser microdissection, enzymatic digestion and microfluidic isolation. Single-cell transcriptional analysis of the murine alveolar duct cells was performed using the C1 integrated fluidic circuit (Fluidigm) and a custom PCR panel designed for lung growth and repair genes. The multi-dimensional data set was …

0301 basic medicinewarburg effectAngiogenesisglucose metabolismmedicine.medical_treatmentPopulationCellBiology03 medical and health sciencesPneumonectomy0302 clinical medicineAlveolar ductSingle-cell analysismedicinemetabolic reprogrammingeducationaerobic glycolysisOriginal ResearchLaser capture microdissectionlcsh:R5-920education.field_of_studyLungGeneral MedicineCell biology030104 developmental biologymedicine.anatomical_structure030228 respiratory systemMedicinecholangiocarcinomalcsh:Medicine (General)Frontiers in Medicine
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Laser Microdissection of the Alveolar Duct Enables Single-Cell Genomic Analysis

2014

Complex tissues such as the lung are composed of structural hierarchies such as alveoli, alveolar ducts, and lobules. Some structural units, such as the alveolar duct, appear to participate in tissue repair as well as the development of bronchioalveolar carcinoma. Here, we demonstrate an approach to conduct laser microdissection of the lung alveolar duct for single-cell PCR analysis. Our approach involved three steps. The initial preparation used mechanical sectioning of the lung tissue with sufficient thickness to encompass the structure of interest. In the case of the alveolar duct, the precision-cut lung slices were 200µm thick; the slices were processed using near-physiologic conditions…

Pathologymedicine.medical_specialtyCancer ResearchCellmicrofluidicsregenerative medicinealveolar ductlcsh:RC254-282Regenerative medicineAlveolar ductSingle-cell analysisMicroscopymedicinesingle-cell analysisOriginal ResearchLaser capture microdissectionLungChemistryrespiratory systemlcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogensmedicine.anatomical_structuremurine lung gene expressionOncologysignaling networklaser microdissectionLung tissueFrontiers in Oncology
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Deformation-induced transitional myofibroblasts contribute to compensatory lung growth

2016

In many mammals, including humans, removal of one lung (pneumonectomy) results in the compensatory growth of the remaining lung. Compensatory growth involves not only an increase in lung size, but also an increase in the number of alveoli in the peripheral lung; however, the process of compensatory neoalveolarization remains poorly understood. Here, we show that the expression of α-smooth muscle actin (SMA)—a cytoplasmic protein characteristic of myofibroblasts—is induced in the pleura following pneumonectomy. SMA induction appears to be dependent on pleural deformation (stretch) as induction is prevented by plombage or phrenic nerve transection (P < 0.001). Within 3 days of pneumonectomy, …

Male0301 basic medicinePulmonary and Respiratory MedicinePathologymedicine.medical_specialtyTranscription GeneticPhysiologymedicine.medical_treatmentCompensatory growth (organ)Cell SeparationDeformation (meteorology)BiologyPolymerase Chain Reaction03 medical and health sciencesPneumonectomyPhysiology (medical)medicineAnimalsMyofibroblastsPneumonectomyLungImage CytometryLungGene Expression Regulation DevelopmentalCell Biologyrespiratory systemActinsMice Inbred C57BL030104 developmental biologymedicine.anatomical_structureStress MechanicalSingle-Cell AnalysisMyofibroblastResearch ArticleAmerican Journal of Physiology-Lung Cellular and Molecular Physiology
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