Alterations in IQGAP1 expression and localization in colorectal carcinoma and liver metastases following oxaliplatin based chemotherapy
Date
2017Abstract
. IQGAP1 is a scaffolding protein that serves a key
role in cell dynamics by integrating internal and external
stimuli to distinct signal outputs. Previous studies have identified several genes that are significantly up‑ or downregulated
in the peripheral white cells (PWCs) of patients with colorectal
adenocarcinoma (CRC), who underwent oxaliplatin‑based
chemotherapy (CT). In addition, screening studies have
reported that IQ-motif containing GTPase activating protein 1
(IQGAP1) transcriptional expression levels varied from ‘off’
to ‘on’ following oxaliplatin CT. In order to determine if variations previously described in PWCs are able to be observed at
the protein level in tumors and in metastases following CT, the
present study performed an immunohistochemical analysis of
IQGAP1 in CRC and primary metastases. IQGAP1 expression was observed in the nuclear envelope and in lateral cell
membranes and cytoplasm in normal colon tissue. However,
in tumor tissue, cells exhibited a diffuse pattern, with variable
expression levels of staining in the nuclear membrane and
cytoplasm, with the highest expression intensity observed at the
invasive front. In healthy and metastasized liver tissue and in
the metastases themselves, expression levels varied from cell to
cell from no expression to a high level. In the majority of cells,
IQGAP1 co‑localized with microtubules at the cytoplasmic
face of the nuclear envelope. Strong positive expression was
observed in areas of the lesion where cells were detaching from
the lesion into the lumen. Despite the homogeneous IQGAP1
staining pattern observed in healthy colon tissue sections,
CRC demonstrated heterogeneity in staining, which was more
marked in metastasized liver tissue resected following CT.
However, the most notable findings were the observed effects
on the cellular and subcellular distribution and its implications
for cancer biology. These results suggest that IQGAP1 may be
a putative biomarker, a candidate for clinical diagnostics and a
potential novel target for anti-cancer therapeutics.