Ellen P. Brennan scite author profile

Biological scaffolds composed of extracellular matrix (ECM) have been shown to be resistant to deliberate bacterial contamination in preclinical in vivo studies. The present study evaluated the degradation products resulting from the acid digestion of ECM scaffolds for antibacterial effects against clinical strains of Staphylococcus aureus and Escherichia coli. The ECM scaffolds were derived from porcine urinary bladder (UBM-ECM) and liver (L-ECM). These biological scaffolds were digested with acid at high temperatures, fractionated using ammonium sulfate precipitation, and tested for antibacterial activity in a standardized in vitro assay. Degradation products from both UBM-ECM and L-ECM demonstrated antibacterial activity against both S. aureus and E. coli. Specific ammonium sulfate fractions that showed antimicrobial activity varied for the 2 different ECM scaffold types. The results of this study suggest that several different lowmolecular-weight peptides with antibacterial activity exist within ECM and that these peptides may help explain the resistance to bacterial infection provided by such biological scaffolds.

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Chemoattractant activity of degradation products of fetal and adult skin extracellular matrix for keratinocyte progenitor cells

Brennan¹,

Tang²,

Stewart‐Akers³

et al. 2008

J Tissue Eng Regen Med

104

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Biologic scaffolds composed of naturally occurring extracellular matrix (ECM) have been utilized as templates for the constructive remodeling of numerous tissues in preclinical studies and human clinical applications. The mechanisms by which ECM induces constructive remodeling are not well understood, but it appears that the degradation products of ECM scaffolds may play key roles in cell recruitment and constructive remodeling. The objective of the present study was to investigate the effects of age and species of the tissue from which ECM is harvested on the chemoattractant activity of degradation products of ECM for human keratinocyte stem and progenitor cells. Adult human skin ECM, fetal human skin ECM, and adult porcine skin ECM were prepared, enzymatically digested, characterized by SDS-PAGE, and evaluated for in vitro chemoattractant activity for human keratinocyte progenitor and stem cells (HEKn). Degradation products of human fetal skin ECM showed greater chemoattractant activity than human adult skin ECM degradation products for the HEKn. Degradation products of porcine adult skin ECM showed greater chemoattractant activity than human adult skin ECM. The human fetal skin ECM degradation products showed the strongest chemoattractant activity for the HEKn. The findings of this study support the concept that the mechanism of ECM scaffold remodeling involves the recruitment of lineage-directed progenitor cells by scaffold degradation products and that both the age and species of the tissue from which the ECM is harvested have an effect upon this chemoattractant potential.

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Antibacterial Activity within Degradation Products of Biological Scaffolds Composed of Extracellular Matrix

Brennan¹,

Reing²,

Chew³

et al. 2006

Tissue Engineering

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Ellen P. Brennan

Antibacterial Activity within Degradation Products of Biological Scaffolds Composed of Extracellular Matrix

Chemoattractant activity of degradation products of fetal and adult skin extracellular matrix for keratinocyte progenitor cells

Antibacterial Activity within Degradation Products of Biological Scaffolds Composed of Extracellular Matrix

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