Expression of transient receptor potential C6 channels in human lung macrophages

Finney-Hayward, Tricia K, Popa, Mariana Oana, Bahra, Parmjit, Li, Su, Poll, Christopher T, Gosling, Martin, Nicholson, Andrew G, Russell, Richard E K, Kon, Onn Min, Jarai, Gabor, Westwick, John, Barnes, Peter J and Donnelly, Louise E (2010) Expression of transient receptor potential C6 channels in human lung macrophages. American Journal of Respiratory Cell and Molecular Biology, 43 (3). pp. 296-304. ISSN 1044-1549

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Abstract

Chronic obstructive pulmonary disease (COPD) is associated with pulmonary inflammation with increased numbers of macrophages located in the parenchyma. These macrophages have the capacity to mediate the underlying pathophysiology of COPD; therefore, a better understanding of their function in chronic inflammation associated with this disease is vital. Ion channels regulate many cellular functions; however, their role in macrophages is unclear. This study examined the expression and function of transient receptor potential (TRP) channels in human macrophages. Human alveolar macrophages and lung tissue macrophages expressed increased mRNA and protein for TRPC6 when compared with monocytes and monocyte-derived macrophages. Moreover, TRPC6 mRNA expression was significantly elevated in alveolar macrophages from patients with COPD compared with control subjects. There were no differences in mRNA for TRPC3 or TRPC7. Although mRNA for TRPM2 and TRPV1 was detected in these cells, protein expression could not be determined. Fractionation of lung-derived macrophages demonstrated that TRPC6 protein was more highly expressed by smaller macrophages compared with larger macrophages. Using whole-cell patch clamp electrophysiology, TRPC6-like currents were measured in both macrophage subpopulations with appropriate biophysical and basic pharmacological profiles. These currents were active under basal conditions in the small macrophages. These data suggest that TRPC6-like channels are functional on human lung macrophages, and may be associated with COPD.

Item Type: Article
Schools and Departments: School of Life Sciences > Chemistry
Subjects: Q Science > QD Chemistry
Depositing User: Tom Gittoes
Date Deposited: 27 Jan 2015 09:56
Last Modified: 27 Jan 2015 09:56
URI: http://sro.sussex.ac.uk/id/eprint/52457
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