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2014 Article Boron Determination ICNCT15 In-vitro Studies In-vivo Studies

Effects of l-DOPA pre-loading on the uptake of boronophenylalanine using the F98 glioma and B16 melanoma models

Applied Radiation and Isotopes, 2014

Authors:   Weilian Yang,Rolf Barth,Tianyao Huo,George Kabalka,Aarif Shaikh,Syed Haider,Subhash Chandra,
Journal: Applied Radiation and Isotopes
https://doi.org/10.1016/j.apradiso.2014.01.002
Abstract: The present study was undertaken to evaluate the effects of l-DOPA pre-loading on the uptake of BPA using the F98 rat glioma and the murine B16 melanoma models. In vitro pretreatments of F98 glioma and B16 melanoma cells with l-DOPA, followed by exposure to BPA increased boron uptake, as determined by inductively coupled plasma-optical emission spectroscopy (ICP-OES). Based on this, in vivo studies were initiated in F98 glioma bearing rats. Initially, the l-DOPA dosing paradigm was evaluated. Maximum tumor boron uptake was observed following i.p. administration of l-DOPA (50mg/kg) followed 24h later by BPA (31.8±8.9 vs. 17.2±6.3µg/g for BPA alone). Next, the effect of l-DOPA pre-loading as a function of the route of administration of BPA was evaluated in F98 glioma bearing rats. The greatest increase in uptake was seen following i.v. administration of BPA, while in contrast no significant increase was seen following intracarotid (i.c.) administration (38.6±12.4 vs. 34.2±10.9). Cellular localization of the F98 glioma, as determined by secondary ion mass spectrometry (SIMS) Boron Imaging revealed equivalent tumor boron concentrations following l-DOPA pre-loading. In vivo studies in B16 melanoma bearing mice showed equivalent tumor boron values in treated and untreated mice, suggesting that the effects of l-DOPA pre-loading may depend both on the histologic type of tumor and its anatomic site.