M. M. Khalisov, A. V. Ankudinov, V. A. Penniyaynen, I. A. Nyapshaev, A. V. Kipenko, K. I. Timoshchuk, S. A. Podzorova, B. V. Krylov, “An atomic-force-microscopy study of the structure of surface layers of intact fibroblasts”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 2017, Volume 43, Issue 4,Pages <nobr>56

This article is cited in 2 papers

An atomic-force-microscopy study of the structure of surface layers of intact fibroblasts

M. M. Khalisov^ab, A. V. Ankudinov^bc, V. A. Penniyaynen^a, I. A. Nyapshaev^c, A. V. Kipenko^ad, K. I. Timoshchuk^b, S. A. Podzorova^a, B. V. Krylov^a

^a Pavlov Institute of Physiology Russian Academy of Sciences
^b St. Petersburg National Research University of Information Technologies, Mechanics and Optics
^c Ioffe Institute, St. Petersburg
^d Federal Almazov Northwest Medical Research Centre, St. Petersburg, Russia

Abstract: Intact embryonic fibroblasts on a collagen-treated substrate have been studied by atomic-force microscopy (AFM) using probes of two types: (i) standard probes with tip curvature radii of 2–10 nm and (ii) special probes with a calibrated 325-nm SiO$_2$ ball radius at the tip apex. It is established that, irrespective of probe type, the average maximum fibroblast height is on a level of $\sim$1.7 $\mu$m and the average stiffness of the probe–cell contact amounts to $\sim$16.5 mN/m. The obtained AFM data reveal a peculiarity of the fibroblast structure, whereby its external layers move as a rigid shell relative to the interior and can be pressed inside to a depth dependent on the load only.

Received: 16.08.2016

DOI: 10.21883/PJTF.2017.04.44298.16461