Selection of High Affinity Peptides Against Hepatitis B Core Antigen from a Phage-Displayed Cyclic Peptide Library
Hepatitis B virus is the prototype member of the family Hepadnaviridae which causes acute and chronic liver diseases worldwide. The viral nucleocapsid containing a partially double stranded DNA is surrounded by an envelope comprises three distinct but related surface proteins (HBsAg), termed as s...
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| Format: | Thesis |
| Language: | English English |
| Published: |
2002
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| Online Access: | http://psasir.upm.edu.my/id/eprint/9380/1/FSAS_2002_15_A.pdf http://psasir.upm.edu.my/id/eprint/9380/ |
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| Summary: | Hepatitis B virus is the prototype member of the family Hepadnaviridae which
causes acute and chronic liver diseases worldwide. The viral nucleocapsid
containing a partially double stranded DNA is surrounded by an envelope
comprises three distinct but related surface proteins (HBsAg), termed as small
(S), medium (M) and large (L)-HBsAg. The essential subunit of the nucleocapsid
is a polypeptide comprising 183 amino acids known as core protein (HBcAg).
HBcAg produced in Escherichia coli is capable of self-assembly into core-like
particles and can be purified easily with ammonium sulphate precipitation and
sucrose gradient centrifugation. Core particles make of full-length HB cAg were
used as substrate in biopanning with a cysteine constrained phage-displayed
heptapeptide library. The most frequently identified phage clones displayed the
cyclic peptides C-WSFFS NI-C and C-WPFWGPW-C. The relative dissociation
constant (Krl) values for the interaction between the p hages and HBcAg were
determined by an equilibrium binding assay in solution. The Kiel values for phage bearing peptides C-WSFFSNI-C and C-WPFWGPW-C for full-length and
truncated HBcAg are less than 10 and 30 nM, respectively, which are 17- and 7-
fold stronger than that of phage bearing the l inear peptide LLGRMK. The
selected phages were able to compete with monoclonal antibody C 1-5 for a
binding site on the surface of core particles, suggesting that the docking site of
these phages may partially overlap with the epitope of mAb C 1-5, which was
mapped at amino acid positions 78 to 83 at the tips of the core particles. The
heavy chain of mAb C l-5 is hydrophobic and was proposed to be the contact
region for HBcAg. Interestingly, the isolated peptides C-WSFFS NI-C and
C-WPFWGPW-C are mainly composed of hydrophobic amino acids and may
bind to the same region as mAb C l-5. A synthetic linear peptide bearing the
sequence WSFFSNI inhibited the binding of L-HBsAg to core particles in vitro
with an inhibition concentration (IC₅₀) approximately 9.8 µM. The additional of
cysteine residues to both the N- and C-termini of the peptide greatly reduced the
solubility of this cyclic peptide, and as a result the IC₅₀ is approximately 20-fold
higher than that of WSFFSNI. A suitable recombinant carrier therefore is needed
in order to reduce the hydrophobicity of the peptides and subsequently acts as a
deli very system for targeting the peptide to virally infected cells. |
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