scholarly journals Extracellular ATP activates hyaluronan synthase 2 (HAS2) in epidermal keratinocytes via P2Y2, Ca2+ signaling, and MAPK pathways

2018 ◽  
Vol 475 (10) ◽  
pp. 1755-1772 ◽  
Author(s):  
Leena Rauhala ◽  
Tiina Jokela ◽  
Riikka Kärnä ◽  
Geneviève Bart ◽  
Piia Takabe ◽  
...  
Keyword(s):  
Protein Kinase ◽  
Degradation Products ◽  
Atp Release ◽  
Human Keratinocytes ◽  
Extracellular Atp ◽  
Extracellular Nucleotides ◽  
Mitogen Activated Protein Kinase ◽  
Hyaluronan Synthase ◽  
Epidermal Keratinocytes ◽  
Hyaluronan Synthase 2

Extracellular nucleotides are used as signaling molecules by several cell types. In epidermis, their release is triggered by insults such as ultraviolet radiation, barrier disruption, and tissue wounding, and by specific nerve terminals firing. Increased synthesis of hyaluronan, a ubiquitous extracellular matrix glycosaminoglycan, also occurs in response to stress, leading to the attractive hypothesis that nucleotide signaling and hyaluronan synthesis could also be linked. In HaCaT keratinocytes, ATP caused a rapid and strong but transient activation of hyaluronan synthase 2 (HAS2) expression via protein kinase C-, Ca2+/calmodulin-dependent protein kinase II-, mitogen-activated protein kinase-, and calcium response element-binding protein-dependent pathways by activating the purinergic P2Y2 receptor. Smaller but more persistent up-regulation of HAS3 and CD44, and delayed up-regulation of HAS1 were also observed. Accumulation of peri- and extracellular hyaluronan followed 4–6 h after stimulation, an effect further enhanced by the hyaluronan precursor glucosamine. AMP and adenosine, the degradation products of ATP, markedly inhibited HAS2 expression and, despite concomitant up-regulation of HAS1 and HAS3, inhibited hyaluronan synthesis. Functionally, ATP moderately increased cell migration, whereas AMP and adenosine had no effect. Our data highlight the strong influence of adenosinergic signaling on hyaluronan metabolism in human keratinocytes. Epidermal insults are associated with extracellular ATP release, as well as rapid up-regulation of HAS2/3, CD44, and hyaluronan synthesis, and we show here that the two phenomena are linked. Furthermore, as ATP is rapidly degraded, the opposite effects of its less phosphorylated derivatives facilitate a rapid shut-off of the hyaluronan response, providing a feedback mechanism to prevent excessive reactions when more persistent signals are absent.

Endogenous ATP release regulates Cl− secretion in cultured human and rat biliary epithelial cells

1999 ◽  
Vol 276 (6) ◽  
pp. G1391-G1400 ◽  
Author(s):  
Richard M. Roman ◽  
Andrew P. Feranchak ◽  
Kelli D. Salter ◽  
Yu Wang ◽  
J. Gregory Fitz
Keyword(s):  
Epithelial Cells ◽  
Cell Volume ◽  
Purinergic Signaling ◽  
Cell Volume Regulation ◽  
Atp Release ◽  
Extracellular Atp ◽  
Extracellular Nucleotides ◽  
Cell Swelling ◽  
Biliary Epithelial Cells ◽  
Normal Rat

P2Y receptor stimulation increases membrane Cl− permeability in biliary epithelial cells, but the source of extracellular nucleotides and physiological relevance of purinergic signaling to biliary secretion are unknown. Our objectives were to determine whether biliary cells release ATP under physiological conditions and whether extracellular ATP contributes to cell volume regulation and transepithelial secretion. With the use of a sensitive bioluminescence assay, constitutive ATP release was detected from human Mz-ChA-1 cholangiocarcinoma cells and polarized normal rat cholangiocyte monolayers. ATP release increased rapidly during cell swelling induced by hypotonic exposure. In Mz-ChA-1 cells, removal of extracellular ATP (apyrase) and P2 receptor blockade (suramin) reversibly inhibited whole cell Cl− current activation and prevented cell volume recovery during hypotonic stress. Moreover, exposure to apyrase induced cell swelling under isotonic conditions. In intact normal rat cholangiocyte monolayers, hypotonic perfusion activated apical Cl−currents, which were inhibited by addition of apyrase and suramin to bathing media. These findings indicate that modulation of ATP release by the cellular hydration state represents a potential signal coordinating cell volume with membrane Cl− permeability and transepithelial Cl−secretion.

scholarly journals Extracellular ATP stimulates the early growth response protein 1 (Egr-1) via a protein kinase C-dependent pathway in the human osteoblastic HOBIT cell line

2003 ◽  
Vol 373 (3) ◽  
pp. 815-824 ◽  
Author(s):  
Alex PINES ◽  
Milena ROMANELLO ◽  
Laura CESARATTO ◽  
Giuseppe DAMANTE ◽  
Luigi MORO ◽  
...  
Keyword(s):  
Protein Kinase C ◽  
Protein Kinase ◽  
Growth Response ◽  
Cytosolic Calcium ◽  
Early Growth ◽  
Extracellular Atp ◽  
Extracellular Nucleotides ◽  
Cell Physiology ◽  
Early Growth Response ◽  
Kinase C

Extracellular nucleotides exert an important role in controlling cell physiology by activating intracellular signalling cascades. Osteoblast HOBIT cells express P2Y1 and P2Y2 G-protein-coupled receptors, and respond to extracellular ATP by increasing cytosolic calcium concentrations. Early growth response protein 1 (Egr-1) is a C2H2-zinc-finger-containing transcriptional regulator responsible for the activation of several genes involved in the control of cell proliferation and apoptosis, and is thought to have a central role in osteoblast biology. We show that ATP treatment of HOBIT cells increases Egr-1 protein levels and binding activity via a mechanism involving a Ca2+-independent protein kinase C isoform. Moreover, hypotonic stress and increased medium turbulence, by inducing ATP release, result in a similar effect on Egr-1. Increased levels of Egr-1 protein expression and activity are achieved at very early times after stimulation (5 min), possibly accounting for a rapid way for changing the osteoblast gene-expression profile. A target gene for Egr-1 that is fundamental in osteoblast physiology, COL1A2, is up-regulated by ATP stimulation of HOBIT cells in a timescale that is compatible with that of Egr-1 activation.

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