The effect of surface energy, adsorbed RGD peptides and fibronectin on the attachment and spreading of cells on multiwalled carbon nanotube papers Original Research Article

We report that hydrophilic oxidized multiwalled carbon nanotube papers (CNPs) were efficient substrates for attachment, spreading, and proliferation of MG-63 cells. Complete spreading occurred in the first 4 h of culture even without complete serum or pre-adsorbed adhesion proteins such as collagen or fibronectin. By contrast, the density of adherent cell on hydrophobic CNPs was low. Spreading did not happen after 24 h of culture in absence of serum proteins and growth factors on such papers. Cell viability concomitantly decreased. We also observed that a short RGD peptide, designed to adsorb on both hydrophobic and hydrophilic CNPs, enhanced adhesion, spreading, and proliferation only on hydrophilic CNPs. By contrast, adsorbed fibronectin triggers cell adhesion and spreading on both types of CNPs. Our results show that the imitation of tissue basal membranes with the nanofibrous structure of CNPs is insufficient to trigger the proliferation and spread of cells. Chemical cues are also needed for cells to spread. CNPs, however, offer a better substrate for adhesion protein absorption than do non-porous polymers.