3 research outputs found
Visualization 2: MEMS-based multiphoton endomicroscope for repetitive imaging of mouse colon
Dysplastic colon Originally published in Biomedical Optics Express on 01 August 2015 (boe-6-8-3074
Design and Synthesis of Near-Infrared Peptide for in Vivo Molecular Imaging of HER2
We report the development, characterization,
and validation of
a peptide specific for the extracellular domain of HER2. This probe
chemistry was developed for molecular imaging by using a structural
model to select an optimal combination of amino acids that maximize
the likelihood for unique hydrophobic and hydrophilic interactions
with HER2 domain 3. The sequence KSPNPRF was identified and conjugated
with either FITC or Cy5.5 via a GGGSK linker using Fmoc-mediated solid-phase
synthesis to demonstrate flexibility for this chemical structure to
be labeled with different fluorophores. A scrambled sequence was developed
for control by altering the conformationally rigid spacer and moving
both hydrophobic and hydrophilic amino acids on the C-terminus. We
validated peptide specificity for HER2 in knockdown and competition
experiments using human colorectal cancer cells in vitro, and measured
a binding affinity of <i>k</i><sub>d</sub> = 21 nM and time
constant of <i>k</i> = 0.14 min<sup>–1</sup> (7.14
min). We used this peptide with either topical or intravenous administration
in a preclinical model of colorectal cancer to demonstrate specific
uptake in spontaneous adenomas and to show feasibility for real time
in vivo imaging with near-infrared fluorescence. We used this peptide
in immunofluorescence studies of human proximal colon specimens to
evaluate specificity for sessile serrated and sporadic adenomas. Improved
visualization can be used endoscopically to guide tissue biopsy and
detect premalignant lesions that would otherwise be missed. Our peptide
design for specificity to HER2 is promising for clinical translation
in molecular imaging methods for early cancer detection
Visualization 1: MEMS-based multiphoton endomicroscope for repetitive imaging of mouse colon
Normal colon Originally published in Biomedical Optics Express on 01 August 2015 (boe-6-8-3074