Abstract
AIMS
to make molecules that deliver more Boron than BPA for boron neutron capture therapy BNCT
METHOD
Boronated compounds were designed based on known LAT-1 substrates, synthesized using boronation techniques and purified using preparative HPLC. The compounds were formulated to achieve high concentrations when compared to BPA-fructose (BPA-F). Boronated compounds were tested for boron uptake and retention in multiple cell lines expressing either LAT1 and/or PEPT1. Compounds were further tested in multiple human xenograft models representing the cancer indication currently treatable by BNCT as well as in one syngeneic colon tumor model that may have high PEPT1 expression. Intracellular and intra tumor boron concentration were measured by ICP OES. We also synthesized 2 dipeptides and tested them in BNCT experiments with our collaborators at Kyoto University in Japan. They were tested in a CT26 mouse syngeneic model using neutrons from KURR1.
RESULTS
We synthesized multiple boronated compounds with better solubility than BPA (100 mg/ml v 30mg/ml in fructose). They were readily taken up in multiple cell lines and one of these compounds had longer retention than others. In competition experiments we were able to show that this compound was a superior substrate for LAT1. We also showed better BNCT results with our molecules compared to BPA.
CONCLUSION
BPA works for BNCT but it has limitations such as poor solubility. We made several new boronated compounds with better solubility than BPA and showed that we could deliver 2-3 x more boron in vitro and in vivo and better BNCT outcomes at KURR1.
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Medicine by Alexandros G. Sfakianakis,Anapafseos 5 Agios Nikolaos 72100 Crete Greece,00302841026182,00306932607174,alsfakia@gmail.com,