Laura Szkolar scite author profile

Laura Szkolar

2Publications

35Citation Statements Received

59Citation Statements Given

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University of Manchester

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Enzymatically triggered peptide hydrogels for 3D cell encapsulation and culture

Szkolar

Guilbaud

Miller

et al. 2014

Journal of Peptide Science

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We have investigated the possibility of using enzymatically triggered peptide hydrogels for the encapsulation and culture of cells. Based on recent work done on the enzymatically triggered gelation of FEFK (F, phenylalanine; E, glutamic acid; K, lysine) using thermolysin, a protease enzyme from Bacillus Thermoproteolyticus Rokko, we have investigated the possibility of using this gelation triggering mechanism to encapsulate cells within a 3D hydrogel matrix. First, the properties of enzymatically triggered hydrogels prepared in phosphate buffer solution were investigated and compared with the properties of hydrogels prepared in HPLC grade water from our previous work. We showed that the use of phosphate buffer solution allowed the production of hydrogels with very high shear moduli (>1 MPa). The gelation kinetics was also investigated, and the mechanical properties of the system were shown to closely follow the synthesis of the octapeptide by the enzyme through reverse hydrolysis. In a second phase, we developed, on the basis of information acquired, a facile protocol for the encapsulation of cells and plating of the hydrogel. Human dermal fibroblasts were then used to exemplify the use of these materials. FEFEFKFK octapeptide hydrogels prepared under the same conditions and with the same mechanical properties were used as a control. We showed that no significant differences were observed between the two systems and that after a decrease in cell number on day 1, cells start to proliferate. After 5 days of culture, the cells can be seen to start to adopt a stretched morphology typical of fibroblasts. The results clearly show that the protocol developed minimises the potential detrimental effect that thermolysin can have on the cells and that these enzymatically triggered hydrogels can be used for the 3D encapsulation and culture of cells.

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Enzymatic catalysed synthesis and gelation of ionic peptides for 3D cell culture applications.

et al. 2012

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The enzymatic catalyzed synthesis and gelation of an ionic peptide and its use to create hydrogels for 3D cell culture is discussed. Time resolved small angle scattering in conjunction with imaging technique allowed the structural changes occurring through this enzymatic reaction to be assessed. In turn, the structural information about the fibrillar network and its local density proved key in facilitating the understanding of the relationships between self-assembly behavior, local nanostructure and final physical properties of the materials. The understanding of the gelation process of these materials allowed the design of a simple and efficient methodology to prepare gels for cell culture. Tetrapeptide/enzyme solution containing cells could be injected into cell culture plate with subsequent gelation of the materials leading to encapsulation of the cells into a 3D network. This system was evaluated for the 3D cell culture of human dermal fibroblasts (HDF). Microscopy showed that cells were uniformly distributed within the gel matrix. Cell counting and live/dead staining showed proliferation of HDF with limited cell death over 10 days.

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Laura Szkolar

Enzymatically triggered peptide hydrogels for 3D cell encapsulation and culture

Enzymatic catalysed synthesis and gelation of ionic peptides for 3D cell culture applications.

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