Abstract
Mammalian cells are different from plant and microbial cells, having no exterior cell walls for protection. Environmental assaults can easily damage or destroy mammalian cells. Thus, the ability to develop a biomimetic cell wall (BCW) on their plasma membrane as a shield can advance various applications. Here we demonstrate the synthesis of BCW with a framing template and a crosslinked matrix for shielding live mammalian cells. The framing template is a supramolecular DNA structure. The crosslinked matrix is a polyelectrolyte complex made of alginate and polylysine. As the entire procedure of BCW synthesis is strictly operated under physiological conditions, BCW-covered mammalian cells can maintain high bioactivity. More importantly, the data show that BCW can shield live mammalian cells from not only physical assaults but also biological assaults. Thus, this study has successfully demonstrated the synthesis of BCW on live mammalian cells with great potential of shielding them from environmental assaults.
Highlights
Mammalian cells are different from plant and microbial cells, having no exterior cell walls for protection
biomimetic cell wall (BCW) has a framing template and a crosslinked matrix that are synthesized with hybridization chain reaction (HCR) and polyelectrolyte complexation (PC), respectively (Fig. 1a)
Synthesis of BCW on mammalian cells. We studied whether this method would be effective in synthesizing BCW on the plasma membrane of live mammalian cells using the CCRF-CEM cell line as the primary cell model
Summary
Mammalian cells are different from plant and microbial cells, having no exterior cell walls for protection. Most plant and microbial cells have developed an exterior cell wall that has a framing structure and a crosslinked matrix[1,2,3,4,5]. While this cell wall is an ultrathin nanomaterial, it can function as an effective shield to protect the cells from environmental assaults. We apply DNA, alginate and polylysine to synthesize a covering material to mimic the plant cell wall (i.e., BCW) on live mammalian cells. This method is promising for the synthesis of BCW in shielding live mammalian cells
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