Sparc-Like Protein 1 Is
a New Marker of Human Glioma Progression
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Abstract
High-grade gliomas (glioblastomas) are the most common
and deadly brain tumors in adults, currently with no satisfactory
treatment available. Apart from <i>de novo</i> glioblastoma,
it is currently accepted that these malignancies mainly progress from
lower grade glial tumors. However, the molecular entities governing
the progression of gliomas are poorly understood. Extracellular and
membrane proteins are key biomolecules found at the cell-to-cell communication
interface and hence are a promising proteome subpopulation that could
help understand the development of glioma. Accordingly, the current
study aims at identifying new protein markers of human glioma progression.
For this purpose, we used glial tumors generated orthotopically with
T98G and U373 human glioma cells in nude mice. This setup allowed
also to discriminate the protein origin, namely, human (tumor) or
mouse (host). Extracellular and membrane proteins were selectively
purified using biotinylation followed by streptavidin affinity chromatography.
Isolated proteins were digested and then identified and quantified
employing 2D-nano-HPLC–MS/MS analysis. A total of 23 and 27
up-regulated extracellular and membrane proteins were identified in
the T98G and U373 models, respectively. Approximately two-thirds of
these were predominantly produced by the tumor, whereas the remaining
proteins appeared to be mainly overexpressed by the host tissue. Following
extensive validation, we have focused our attention on sparc-like
protein 1. This protein was further investigated using immunohistochemistry
in a large collection of human glioma samples of different grades.
The results showed that sparc-like protein 1 expression correlates
with glioma grade, suggesting the possible role for this protein in
the progression of this malignancy