Direct polymer conjugation at peptide tyrosine residues
is described.
In this study Tyr residues of both leucine enkephalin and salmon calcitonin
(sCT) were targeted using appropriate diazonium salt-terminated linear
monomethoxy poly(ethylene glycol)s (mPEGs) and poly(mPEG) methacrylate
prepared by atom transfer radical polymerization. Judicious choice
of the reaction conditionspH, stoichiometry, and chemical
structure of diazonium saltled to a high degree of site-specificity
in the conjugation reaction, even in the presence of competitive peptide
amino acid targets such as histidine, lysines, and N-terminal amine. In vitro studies showed
that conjugation of mPEG2000 to sCT did not affect the
peptide’s ability to increase intracellular cAMP induced in
T47D human breast cancer cells bearing sCT receptors. Preliminary in vivo investigation showed preserved ability to reduce
[Ca2+] plasma levels by mPEG2000-sCT conjugate
in rat animal models.
We employ water-soluble organic phosphines as key reagents in a one-pot synthetic protocol where a (poly)peptide disulfide bridge is first reduced followed by subsequent reaction of the two thiols in situ with poly(monomethoxy ethylene glycol)(meth)acrylates (p(mPEG)(M)A); we use salmon calcitonin (sCT) as a disulfide bridge-containing peptide, which contains a disulfide bridge-Cys1-Cys7-that can be reduced to give two sulfhydryl units available for thiol functionalisation; bioactivity is retained.
Salmon calcitonin (sCT) was conjugated via cysteine-1 to novel combed-shaped endfunctionalised poly(PEG) methyl ether methacrylate) (sCT-P) comb-shaped polymers, to yield conjugates of total molecular weights (MW) inclusive of sCT: 6.5, 9.5, 23 and 40 kDa. The conjugates were characterised by HPLC and their in vitro and in vivo bioactivity was measured by cAMP assay on human T47D cells and following intravenous (i.v.) injection to rats, respectively. Stability against endopeptidases, rat serum and liver homogenates was assessed. There were linear and exponential relationships between conjugate MW with potency and efficacy respectively, however the largest MW conjugate still retained 70% of E max and an EC 50 of 3.7 nM. In vivo, while free sCT and the conjugates reduced serum [calcium] to a maximum of 15-30 % over 240 min, the half life (T½) was increased and the area under the curve (AUC) was extended in proportion to conjugate MW. Likewise, the polymer conferred protection on sCT against attack by trypsin, chymotrypsin, elastase, rat serum and liver homogenates, with the best protection afforded by sCT-P (40 kDa). Mathematical modelling accurately predicted the MW relationships to in vitro efficacy, potency, in vivo PK and enzymatic stability. With a significant increase in T½ for sCT, the 40 kDa MW comb-shaped PEG conjugate of sCT may have potential as a long-acting injectable formulation.
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