Head-to-head comparison of (R)-[C-11]verapamil and [F-18]MC225 in non-human primates, tracers for measuring P-glycoprotein function

Lara Garcia-Varela; David Vallez Garcia; Pablo Aguiar; Takeharu Kakiuchi; Hiroyuki Ohba; Norihiro Harada; Shingo Nishiyama; Tetsuro Tago; Philip H. Elsinga; Hideo Tsukada; Nicola A. Colabufo; Rudi A. J. O. Dierckx; Aren van Waarde; Jun Toyohara; Ronald Boellaard; Gert Luurtsema

doi:10.1007/s00259-021-05411-2

Head-to-head comparison of (R)-[C-11]verapamil and [F-18]MC225 in non-human primates, tracers for measuring P-glycoprotein function

Lara Garcia-Varela, David Vallez Garcia, Pablo Aguiar, Takeharu Kakiuchi, Hiroyuki Ohba, Norihiro Harada, Shingo Nishiyama, Tetsuro Tago, Philip H. Elsinga, Hideo Tsukada, Nicola A. Colabufo, Rudi A. J. O. Dierckx, Aren van Waarde, Jun Toyohara, Ronald Boellaard, Gert Luurtsema^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

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Abstract

PURPOSE: P-glycoprotein (P-gp) function is altered in several brain disorders; thus, it is of interest to monitor the P-gp function in vivo using PET. (R)-[11C]verapamil is considered the gold standard tracer to measure the P-gp function; however, it presents some drawbacks that limit its use. New P-gp tracers have been developed with improved properties, such as [18F]MC225. This study compares the characteristics of (R)-[11C]verapamil and [18F]MC225 in the same subjects.

METHODS: Three non-human primates underwent 4 PET scans: 2 with (R)-[11C]verapamil and 2 with [18F]MC225, at baseline and after P-gp inhibition. The 30-min PET data were analyzed using 1-Tissue Compartment Model (1-TCM) and metabolite-corrected plasma as input function. Tracer kinetic parameters at baseline and after inhibition were compared. Regional differences and simplified methods to quantify the P-gp function were also assessed.

RESULTS: At baseline, [18F]MC225 VT values were higher, and k2 values were lower than those of (R)-[11C]verapamil, whereas K1 values were not significantly different. After inhibition, VT values of the 2 tracers were similar; however, (R)-[11C]verapamil K1 and k2 values were higher than those of [18F]MC225. Significant regional differences between tracers were found at baseline, which disappeared after inhibition. The positive slope of the SUV-TAC was positively correlated to the K1 and VT of both tracers.

CONCLUSION: [18F]MC225 and (R)-[11C]verapamil show comparable sensitivity to measure the P-gp function in non-human primates. Moreover, this study highlights the 30-min VT as the best parameter to measure decreases in the P-gp function with both tracers. [18F]MC225 may become the first radiofluorinated tracer able to measure decreases and increases in the P-gp function due to its higher baseline VT.

Original language	English
Number of pages	11
Journal	European Journal of Nuclear Medicine and Molecular Imaging
DOIs	https://doi.org/10.1007/s00259-021-05411-2
Publication status	Published - 11-Jun-2021

Keywords

Brain imaging
Central nervous system
Efflux transporter
Regional differences
ABC TRANSPORTERS
BRAIN
BLOOD
PET
RADIOPHARMACEUTICALS
RESISTANCE
EPILEPSY
F-18

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Garcia-Varela, L., Vallez Garcia, D., Aguiar, P., Kakiuchi, T., Ohba, H., Harada, N., Nishiyama, S., Tago, T., Elsinga, P. H., Tsukada, H., Colabufo, N. A., Dierckx, R. A. J. O., van Waarde, A., Toyohara, J., Boellaard, R., & Luurtsema, G. (2021). Head-to-head comparison of (R)-[C-11]verapamil and [F-18]MC225 in non-human primates, tracers for measuring P-glycoprotein function. European Journal of Nuclear Medicine and Molecular Imaging. https://doi.org/10.1007/s00259-021-05411-2

Garcia-Varela, Lara ; Vallez Garcia, David ; Aguiar, Pablo ; Kakiuchi, Takeharu ; Ohba, Hiroyuki ; Harada, Norihiro ; Nishiyama, Shingo ; Tago, Tetsuro ; Elsinga, Philip H. ; Tsukada, Hideo ; Colabufo, Nicola A. ; Dierckx, Rudi A. J. O. ; van Waarde, Aren ; Toyohara, Jun ; Boellaard, Ronald ; Luurtsema, Gert. / Head-to-head comparison of (R)-[C-11]verapamil and [F-18]MC225 in non-human primates, tracers for measuring P-glycoprotein function. In: European Journal of Nuclear Medicine and Molecular Imaging. 2021.

@article{a1bdcd3e744c431d8c61abe9e219b017,

title = "Head-to-head comparison of (R)-[C-11]verapamil and [F-18]MC225 in non-human primates, tracers for measuring P-glycoprotein function",

abstract = "PURPOSE: P-glycoprotein (P-gp) function is altered in several brain disorders; thus, it is of interest to monitor the P-gp function in vivo using PET. (R)-[11C]verapamil is considered the gold standard tracer to measure the P-gp function; however, it presents some drawbacks that limit its use. New P-gp tracers have been developed with improved properties, such as [18F]MC225. This study compares the characteristics of (R)-[11C]verapamil and [18F]MC225 in the same subjects.METHODS: Three non-human primates underwent 4 PET scans: 2 with (R)-[11C]verapamil and 2 with [18F]MC225, at baseline and after P-gp inhibition. The 30-min PET data were analyzed using 1-Tissue Compartment Model (1-TCM) and metabolite-corrected plasma as input function. Tracer kinetic parameters at baseline and after inhibition were compared. Regional differences and simplified methods to quantify the P-gp function were also assessed.RESULTS: At baseline, [18F]MC225 VT values were higher, and k2 values were lower than those of (R)-[11C]verapamil, whereas K1 values were not significantly different. After inhibition, VT values of the 2 tracers were similar; however, (R)-[11C]verapamil K1 and k2 values were higher than those of [18F]MC225. Significant regional differences between tracers were found at baseline, which disappeared after inhibition. The positive slope of the SUV-TAC was positively correlated to the K1 and VT of both tracers.CONCLUSION: [18F]MC225 and (R)-[11C]verapamil show comparable sensitivity to measure the P-gp function in non-human primates. Moreover, this study highlights the 30-min VT as the best parameter to measure decreases in the P-gp function with both tracers. [18F]MC225 may become the first radiofluorinated tracer able to measure decreases and increases in the P-gp function due to its higher baseline VT.",

keywords = "Brain imaging, Central nervous system, Efflux transporter, Regional differences, ABC TRANSPORTERS, BRAIN, BLOOD, PET, RADIOPHARMACEUTICALS, RESISTANCE, EPILEPSY, F-18",

author = "Lara Garcia-Varela and {Vallez Garcia}, David and Pablo Aguiar and Takeharu Kakiuchi and Hiroyuki Ohba and Norihiro Harada and Shingo Nishiyama and Tetsuro Tago and Elsinga, {Philip H.} and Hideo Tsukada and Colabufo, {Nicola A.} and Dierckx, {Rudi A. J. O.} and {van Waarde}, Aren and Jun Toyohara and Ronald Boellaard and Gert Luurtsema",

year = "2021",

month = jun,

day = "11",

doi = "10.1007/s00259-021-05411-2",

language = "English",

journal = "European Journal of Nuclear Medicine and Molecular Imaging",

issn = "1619-7070",

publisher = "SPRINGER",

}

Garcia-Varela, L , Vallez Garcia, D, Aguiar, P, Kakiuchi, T, Ohba, H, Harada, N, Nishiyama, S, Tago, T, Elsinga, PH, Tsukada, H, Colabufo, NA, Dierckx, RAJO , van Waarde, A, Toyohara, J, Boellaard, R & Luurtsema, G 2021, 'Head-to-head comparison of (R)-[C-11]verapamil and [F-18]MC225 in non-human primates, tracers for measuring P-glycoprotein function', European Journal of Nuclear Medicine and Molecular Imaging. https://doi.org/10.1007/s00259-021-05411-2

Head-to-head comparison of (R)-[C-11]verapamil and [F-18]MC225 in non-human primates, tracers for measuring P-glycoprotein function. / Garcia-Varela, Lara ; Vallez Garcia, David; Aguiar, Pablo; Kakiuchi, Takeharu; Ohba, Hiroyuki; Harada, Norihiro; Nishiyama, Shingo; Tago, Tetsuro; Elsinga, Philip H.; Tsukada, Hideo; Colabufo, Nicola A.; Dierckx, Rudi A. J. O.; van Waarde, Aren; Toyohara, Jun; Boellaard, Ronald ; Luurtsema, Gert.

In: European Journal of Nuclear Medicine and Molecular Imaging, 11.06.2021.

Research output: Contribution to journal › Article › Academic › peer-review

TY - JOUR

T1 - Head-to-head comparison of (R)-[C-11]verapamil and [F-18]MC225 in non-human primates, tracers for measuring P-glycoprotein function

AU - Garcia-Varela, Lara

AU - Vallez Garcia, David

AU - Aguiar, Pablo

AU - Kakiuchi, Takeharu

AU - Ohba, Hiroyuki

AU - Harada, Norihiro

AU - Nishiyama, Shingo

AU - Tago, Tetsuro

AU - Elsinga, Philip H.

AU - Tsukada, Hideo

AU - Colabufo, Nicola A.

AU - Dierckx, Rudi A. J. O.

AU - van Waarde, Aren

AU - Toyohara, Jun

AU - Boellaard, Ronald

AU - Luurtsema, Gert

PY - 2021/6/11

Y1 - 2021/6/11

N2 - PURPOSE: P-glycoprotein (P-gp) function is altered in several brain disorders; thus, it is of interest to monitor the P-gp function in vivo using PET. (R)-[11C]verapamil is considered the gold standard tracer to measure the P-gp function; however, it presents some drawbacks that limit its use. New P-gp tracers have been developed with improved properties, such as [18F]MC225. This study compares the characteristics of (R)-[11C]verapamil and [18F]MC225 in the same subjects.METHODS: Three non-human primates underwent 4 PET scans: 2 with (R)-[11C]verapamil and 2 with [18F]MC225, at baseline and after P-gp inhibition. The 30-min PET data were analyzed using 1-Tissue Compartment Model (1-TCM) and metabolite-corrected plasma as input function. Tracer kinetic parameters at baseline and after inhibition were compared. Regional differences and simplified methods to quantify the P-gp function were also assessed.RESULTS: At baseline, [18F]MC225 VT values were higher, and k2 values were lower than those of (R)-[11C]verapamil, whereas K1 values were not significantly different. After inhibition, VT values of the 2 tracers were similar; however, (R)-[11C]verapamil K1 and k2 values were higher than those of [18F]MC225. Significant regional differences between tracers were found at baseline, which disappeared after inhibition. The positive slope of the SUV-TAC was positively correlated to the K1 and VT of both tracers.CONCLUSION: [18F]MC225 and (R)-[11C]verapamil show comparable sensitivity to measure the P-gp function in non-human primates. Moreover, this study highlights the 30-min VT as the best parameter to measure decreases in the P-gp function with both tracers. [18F]MC225 may become the first radiofluorinated tracer able to measure decreases and increases in the P-gp function due to its higher baseline VT.

AB - PURPOSE: P-glycoprotein (P-gp) function is altered in several brain disorders; thus, it is of interest to monitor the P-gp function in vivo using PET. (R)-[11C]verapamil is considered the gold standard tracer to measure the P-gp function; however, it presents some drawbacks that limit its use. New P-gp tracers have been developed with improved properties, such as [18F]MC225. This study compares the characteristics of (R)-[11C]verapamil and [18F]MC225 in the same subjects.METHODS: Three non-human primates underwent 4 PET scans: 2 with (R)-[11C]verapamil and 2 with [18F]MC225, at baseline and after P-gp inhibition. The 30-min PET data were analyzed using 1-Tissue Compartment Model (1-TCM) and metabolite-corrected plasma as input function. Tracer kinetic parameters at baseline and after inhibition were compared. Regional differences and simplified methods to quantify the P-gp function were also assessed.RESULTS: At baseline, [18F]MC225 VT values were higher, and k2 values were lower than those of (R)-[11C]verapamil, whereas K1 values were not significantly different. After inhibition, VT values of the 2 tracers were similar; however, (R)-[11C]verapamil K1 and k2 values were higher than those of [18F]MC225. Significant regional differences between tracers were found at baseline, which disappeared after inhibition. The positive slope of the SUV-TAC was positively correlated to the K1 and VT of both tracers.CONCLUSION: [18F]MC225 and (R)-[11C]verapamil show comparable sensitivity to measure the P-gp function in non-human primates. Moreover, this study highlights the 30-min VT as the best parameter to measure decreases in the P-gp function with both tracers. [18F]MC225 may become the first radiofluorinated tracer able to measure decreases and increases in the P-gp function due to its higher baseline VT.

KW - Brain imaging

KW - Central nervous system

KW - Efflux transporter

KW - Regional differences

KW - ABC TRANSPORTERS

KW - BRAIN

KW - BLOOD

KW - PET

KW - RADIOPHARMACEUTICALS

KW - RESISTANCE

KW - EPILEPSY

KW - F-18

U2 - 10.1007/s00259-021-05411-2

DO - 10.1007/s00259-021-05411-2

M3 - Article

C2 - 34117508

JO - European Journal of Nuclear Medicine and Molecular Imaging

JF - European Journal of Nuclear Medicine and Molecular Imaging

SN - 1619-7070

ER -