scholarly journals Effects of extracellular calcium depletion on membrane topography and occluding junctions of mammary epithelial cells in culture.

1983 ◽  
Vol 96 (3) ◽  
pp. 613-624 ◽  
Author(s):  
D R Pitelka ◽  
B N Taggart ◽  
S T Hamamoto
Keyword(s):  
Epithelial Cells ◽  
Cellular Response ◽  
Mammary Epithelial Cells ◽  
Mammary Epithelial ◽  
Control Mechanisms ◽  
Membrane Topography ◽  
Occluding Junctions ◽  
Low Concentrations ◽  
Mechanical Tensions ◽  
Epithelial Sheets

Ca2+ dependence of occluding junction structure and permeability, well documented in explanted or cultured epithelial sheets, presumably reflects inherent control mechanisms. As an approach to identification of these mechanisms, we induced disassembly of zonulae occludentes in confluent monolayers of mouse mammary epithelial cells by exposure to low concentrations of the chelators, EGTA or sodium citrate. Stages in disassembly were monitored during treatment by phase-contrast microscopy and prepared for transmission and scanning electron microscopy. Cellular response included several events affecting occluding junctions: (a) Centripetal cytoplasmic contraction created tension on junction membranes and displaced intramembrane strands along lines determined by the axis of tension. (b) Destabilization of junction position, probably through increased membrane fluidity, augmented tension-induced movement of strands, resulting in fragmentation of the junction belt. (c) Active ruffling and retraction of freed peripheral membranes remodeled cell borders to produce many filopodia, distally attached by occluding-junction fragments to neighboring cell membranes. Filopodia generally persisted until mechanically ruptured, when endocytosis of the junction and adhering cytoplasmic bleb ensued. Junction disassembly thus resulted from mechanical tensions generated by initial centripetal contraction and subsequent peripheral cytoskeletal activity, combined with destabilization of the junction's intramembrane strand pattern.

scholarly journals Mechanical tension induces lateral movement of intramembrane components of the tight junction: studies on mouse mammary cells in culture.

1983 ◽  
Vol 96 (3) ◽  
pp. 606-612 ◽  
Author(s):  
D R Pitelka ◽  
B N Taggart
Keyword(s):  
Mammary Epithelial Cells ◽  
Lateral Displacement ◽  
Mammary Epithelial ◽  
Detectable Effect ◽  
Mechanical Tension ◽  
Fourfold Increase ◽  
Macromolecular Assemblies ◽  
Occluding Junctions ◽  
Cytoskeletal Tension ◽  
Epithelial Sheets

Occluding junctions of mammary epithelial cells in nonproliferating primary culture occasionally display an atypical pattern of intramembrane strands oriented predominantly perpendicular, instead of roughly parallel, to the apical border of the junction. To test whether the orienting influence was a centripetal cytoskeletal tension often observed in epithelial sheets on fixed substrates, we seeded cells at low density; this allows them to spread maximally while forming a barely confluent pavement. The result was a fourfold increase in the percentage of junctions with the strongly aligned, atypical pattern. Closely similar configurations were observed as the earliest detectable effect of chelation of extracellular Ca++, which induced pronounced centripetal contraction of the cell body. Externally imposed tension, applied so as to stretch cells in one direction only, affected the positions of strands in stretched junctions as might be predicted, by flattening their undulations, increasing their alignment parallel to the apical border. Thus mechanical tension alone, whether inherent in the cytoskeleton or imposed on the cell surface by exogenous force, can cause coordinate lateral displacement of macromolecular assemblies within the membranes of both joined cells.

scholarly journals LncRNA Profiling of Exosomes Derived From Staphylococcus Aureus-induced Bovine Mammary Epithelial Cell Lines MAC-T

2020 ◽  
Author(s):  
Yu Chen ◽  
Hongyuan Jing ◽  
Miaoyu Chen ◽  
Wan Liang ◽  
Mengyao Guo
Keyword(s):  
T Cells ◽  
Epithelial Cells ◽  
Differentially Expressed Genes ◽  
Dairy Cow ◽  
Cellular Response ◽  
Target Genes ◽  
Mammary Epithelial Cells ◽  
Mammary Epithelial ◽  
Differentially Expressed ◽  
Go Analysis

Abstract Background: Exosomes (carrying proteins, miRNA, lncRNA, etc.) play a vital role in participating in the occurrence and development of mastitis. LncRNA can play a variety of regulatory roles by combining with protein, RNA, and DNA. The expression of mRNA and lncRNA in exosomes derived from bovine mammary epithelial cells infected by S. aureus is rarely understood.Methods: We used ultracentrifugation to separate exosomes derived from S. aureus- stimulated MAC-T cells. After extracting exosomal RNA, RNA sequencing was performed. We screened differentially expressed genes, mRNA and lncRNA, and predicted their functions through KEGG and GO analysis. 6 mRNA and lncRNA were randomly selected for RT-qPCR verification.Results: Analysis of the sequencing results showed that there were 186 differentially expressed genes, 431 differentially expressed mRNAs and 19 differentially expressed lncRNAs in the exosomes derived from S. aureus-infected and non-infected MAC-T acells. By predicting lncRNA target genes, it was found that 19 differentially expressed lncRNAs all acted on multiple mRNAs in cis and trans. GO analysis revealed that differentially expressed genes and lncRNA target genes played significant roles in such metabolism, transmembrane transport, cellular response to DNA damage stimulus, response to cytokines. KEGG enrichment indicated that lncRNA target genes gathered in the TNF pathway, Notch pathway, phosphatidylinositol signaling system and p53 pathway. Conclusion: The data suggested that S. aureus induced changes in genes, mRNA, and lncRNA in exosomes secreted by MAC-T cells, which furtherly triggered other cells damage through exosomal delivery. This study would provide valuable resource for understanding the lncRNA information in exosomes derived from dairy cow mammary epithelial cells, and conduced to the study of S. aureus infection in dairy cow mammary glands.

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