The application of peptide recognition sequences of elastase to fibers of w
ound dressings is a possible route to inhibiting high levels of destructive
elastase in the chronic wound. For this reason we have synthesized the ela
stase recognition sequence Val-Pro-Val on both cotton cellulose, and carbox
ymethylated cellulose cotton (CMC) and prepared chromatography columns of t
hese to examine elastase retention. The tripepride was synthesized on cotto
n-based cellulose fibers both in sequence and as a tripeptide methyl ester.
Glycine war employed as a linker of the recognition sequence to the cotton
cellulose. Pretreatment of cotton cellulose with cellulase improved the su
bstitution level of glycine. The peptidocellulose conjugates were employed
asa chromatographic stationary phase to assess elastase retention. The sequ
ence Val-Pro-Val-OMe was amino-terminally anchored to carboxymethylated cot
ton and demonstrated retention of up to 58% of elastase when first applied
to the column. Higher repetitive retention was demonstrated subsequently. C
otton gauze similarly modified with Val-Pro-Val-Gly cellulose was compared
with untreated gauze for reduction of elastase activity in buffered saline.
Solutions of elastase that were treated with Val-Pro-Val-Gly cellulose cot
ton gauze, demonstrated reduced elastase activity. This study demonstrates
the use of elastase recognition sequences as sequestering agents of elastas
e when attached to cotton fibers and constitutes a model far the design of
peptidocellulose analogs in dressing fibers for chronic wounds.