siRNA-mediated inhibition of Na^sup +^ -K^sup +^-2Cl^sup -^ cotransporter (NKCC1) and regulatory volume increase in the chondrocyte cell line C-20/A4

Qusous, Ala, Geewan, Corinne, Greenwell, Pamela and Kerrigan, Mark J.P. (2011) siRNA-mediated inhibition of Na^sup +^ -K^sup +^-2Cl^sup -^ cotransporter (NKCC1) and regulatory volume increase in the chondrocyte cell line C-20/A4. Journal of Membrane Biology, 243 (1-3). pp. 25-34. ISSN 0022-2631

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The Na^sup +^-K^sup +^-2Cl^sup -^ cotransporter (NKCC1) is an essential membrane transporter and has been linked to the regulation of volume, matrix synthesis and bone growth in chondrocytes; the sole resident cell type of articular cartilage. Despite the integral nature of NKCC1, its regulation is currently poorly understood, and therefore here we describe a NKCC1 knockdown technique that will permit the easier study of this transporter. Small interfering RNA (siRNA), designed to knock down NKCC1, was transfected into the chondrocyte cell line C-20/A4 and the efficacy determined at the message, protein and functional levels. NKCC1 expression was analyzed by reverse-transcriptase polymerase chain reaction, where NKCC1 expression declined to 25.10 ± 1.08% after 12 h of transfection and did not show any rise in the following 36 h. The efficacy of the designed siRNA molecules was confirmed by both Western blot and immunocytochemistry. The effect of the knockdown on regulatory volume increase (RVI, a novel assay for NKCC1 function) was investigated by confocal laser scanning microscopy in response to a 43% hypertonic challenge, whereby control chondrocytes underwent a decrease in volume to 67.38 ± 1.70%, followed by volume restoration to 82.17 ± 2.23 at 20 min (t1?2 = 22.11 ± 3.23 min). Conversely, upon knockdown, chondrocytes exhibited a slower rate of RVI (t1?2 = 43.26 ± 5.64 min), thus suggesting that NKCC1 plays an important and yet partial role in RVI in C-20/A4 chondrocytes. Together, these data provide a robust protocol for the study of NKCC1 in chondrocytes and suggest a mechanism for C-20/A4 chondrocyte RVI.

Item Type: Article
Subjects: University of Westminster > Science and Technology > Life Sciences, School of (No longer in use)
Depositing User: Rachel Wheelhouse
Date Deposited: 25 Oct 2012 15:30
Last Modified: 25 Oct 2012 15:30

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