posted on 2018-09-06, 00:00authored bySakkarapalayam
M. Mahalingam, Haiyan Chu, Xin Liu, Christopher P. Leamon, Philip S. Low
Use
of tumor-targeted fluorescence dyes to help surgeons identify
otherwise undetected tumor nodules, decrease the incidence of cancer-positive
margins, and facilitate localization of malignant lymph nodes has
demonstrated considerable promise for improving cancer debulking surgery.
Unfortunately, the repertoire of available tumor-targeted fluorescent
dyes does not permit identification of all cancer types, raising the
need to develop additional tumor-specific fluorescent dyes to ensure
localization of all malignant lesions during cancer surgeries. By
comparing the mRNA levels of the hypoxia-induced plasma membrane protein
carbonic anhydrase IX (CA IX) in 13 major human cancers with the same
mRNA levels in corresponding normal tissues, we document that CA IX
constitutes a nearly universal marker for the design of tumor-targeted
fluorescent dyes. Motivated by this expression profile, we synthesize
two new CA IX-targeted near-infrared (NIR) fluorescent imaging agents
and characterize their physical and biological properties both in vitro and in vivo. We report that conjugation
of either acetazolamide or 6-aminosaccharin (i.e., two CA-IX-specific
ligands) to the NIR fluorescent dye, S0456, via an extended phenolic
spacer creates a brightly fluorescent dye that binds CA IX with high
affinity and allows rapid visualization of hypoxic regions of solid
tumors at depths >1 cm beneath a tissue surface. Taken together,
these
data suggest that a CA IX-targeted NIR dye can constitute a useful
addition to a cocktail of tumor-targeted NIR dyes designed to image
all human cancers.