Issue 2, 2008

Fully automated microchip system for the detection of quantal exocytosis from single and small ensembles of cells

Abstract

A lab-on-a-chip device that enables positioning of single or small ensembles of cells on an aperture in close proximity to a mercaptopropionic acid (MPA) modified sensing electrode has been developed and characterized. The microchip was used for the detection of Ca2+-dependent quantal catecholamine exocytosis from single as well as small assemblies of rat pheochromocytoma (PC12) cells. The frequency of events increased considerably upon depolarization of the PC12 cell membrane using a high extracelluar concentration of potassium. The number of recorded events could be correlated with the number of cells immobilized on the electrode. Quantal characteristics, such as the number of released molecules per recorded event, are equivalent to data obtained using conventional carbon fiber microelectrodes. The detection sensitivity of the device allows for the detection of less than 10 000 dopamine molecules in a quantal release. The distribution of peak rise-time and full width at half maximum was constant during measurement periods of several minutes demonstrating the stability of the MPA modified surface.

Graphical abstract: Fully automated microchip system for the detection of quantal exocytosis from single and small ensembles of cells

Supplementary files

Article information

Article type
Paper
Submitted
01 Oct 2007
Accepted
06 Dec 2007
First published
20 Dec 2007

Lab Chip, 2008,8, 323-329

Fully automated microchip system for the detection of quantal exocytosis from single and small ensembles of cells

C. Spégel, A. Heiskanen, S. Pedersen, J. Emnéus, T. Ruzgas and R. Taboryski, Lab Chip, 2008, 8, 323 DOI: 10.1039/B715107A

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