TY - JOUR
T1 - Multimodal elucidation of choline metabolism in a murine glioma model using magnetic resonance spectroscopy and 11C-choline positron emission tomography
AU - Wehrl, H.F.
AU - Schwab, J.
AU - Hasenbach, K.
AU - Reischl, G.
AU - Tabatabai, G.
AU - Quintanilla-Martinez, L.
AU - Jiru, F.
AU - Chughtai, K
AU - Kiss, A.
AU - Cay, F.
AU - Bukala, D.
AU - Heeren, R.M.A.
AU - Pichler, B.J.
AU - Sauter, A.W.
PY - 2013
Y1 - 2013
N2 - The metabolites, transporters, and enzymes involved in choline metabolism are regarded as biomarkers for
disease progression in a variety of cancers, but their in vivo detection is not ideal. Both magnetic resonance
spectroscopy [MRS using chemical shift imaging (CSI) total choline (tCho)] and 11C-choline positron
emission tomography (PET) can probe this pathway, but they have not been compared side by side. In
this study, we used the spontaneous murine astrocytoma model SMA560 injected intracranially into
syngeneic VM/Dk mice, analyzing animals at various postimplantation time points using dynamic microPET
imaging and CSI MRS. We observed an increase in tumor volume and 11C-choline uptake between days
5 and 18. Similarly, tCho levels decreased at days 5 to 18. We found a negative correlation between the tCho
and PET results in the tumor and a positive correlation between the tCho tumor-to-brain ratio and choline
uptake in the tumor. PCR results confirmed expected increases in expression levels for most of the transporters
and enzymes. Using MRS quantification, a good agreement was found between CSI and 11C-choline
PET data, whereas a negative correlation occurred when CSI was not referenced. Thus, 11C-choline PET and
MRS methods seemed to be complementary in strengths. While advancing tumor proliferation caused an
increasing 11C-choline uptake, gliosis and inflammation potentially accounted for a high peritumoral tCho
signal in CSI, as supported by histology and secondary ion mass spectrometry imaging. Our findings provide
definitive evidence of the use of MRS, CSI, and PET for imaging tumors in vivo.
AB - The metabolites, transporters, and enzymes involved in choline metabolism are regarded as biomarkers for
disease progression in a variety of cancers, but their in vivo detection is not ideal. Both magnetic resonance
spectroscopy [MRS using chemical shift imaging (CSI) total choline (tCho)] and 11C-choline positron
emission tomography (PET) can probe this pathway, but they have not been compared side by side. In
this study, we used the spontaneous murine astrocytoma model SMA560 injected intracranially into
syngeneic VM/Dk mice, analyzing animals at various postimplantation time points using dynamic microPET
imaging and CSI MRS. We observed an increase in tumor volume and 11C-choline uptake between days
5 and 18. Similarly, tCho levels decreased at days 5 to 18. We found a negative correlation between the tCho
and PET results in the tumor and a positive correlation between the tCho tumor-to-brain ratio and choline
uptake in the tumor. PCR results confirmed expected increases in expression levels for most of the transporters
and enzymes. Using MRS quantification, a good agreement was found between CSI and 11C-choline
PET data, whereas a negative correlation occurred when CSI was not referenced. Thus, 11C-choline PET and
MRS methods seemed to be complementary in strengths. While advancing tumor proliferation caused an
increasing 11C-choline uptake, gliosis and inflammation potentially accounted for a high peritumoral tCho
signal in CSI, as supported by histology and secondary ion mass spectrometry imaging. Our findings provide
definitive evidence of the use of MRS, CSI, and PET for imaging tumors in vivo.
U2 - 10.1158/0008-5472.CAN-12-2532
DO - 10.1158/0008-5472.CAN-12-2532
M3 - Article
SN - 0008-5472
VL - 73
SP - 1470
EP - 1480
JO - Cancer Research
JF - Cancer Research
IS - 5
ER -