Developing the 134Ce and 134La pair as companion positron emission tomography diagnostic isotopes for 225Ac and 227Th radiotherapeutics.
Tyler A BaileyVeronika MockoKatherine M ShieldDahlia D AnAndrew C AkinEva R BirnbaumMark BrughJason C CooleyJohnathan W EngleMichael Ernst-Heinrich FassbenderStacey S GaunyAndrew L LakesFrancois M NortierEllen M O'BrienSara L ThiemannFrankie D WhiteChristiaan VermeulenStosh Anthony KozimorRebecca J AbergelPublished in: Nature chemistry (2020)
Developing targeted α-therapies has the potential to transform how diseases are treated. In these interventions, targeting vectors are labelled with α-emitting radioisotopes that deliver destructive radiation discretely to diseased cells while simultaneously sparing the surrounding healthy tissue. Widespread implementation requires advances in non-invasive imaging technologies that rapidly assay therapeutics. Towards this end, positron emission tomography (PET) imaging has emerged as one of the most informative diagnostic techniques. Unfortunately, many promising α-emitting isotopes such as 225Ac and 227Th are incompatible with PET imaging. Here we overcame this obstacle by developing large-scale (Ci-scale) production and purification methods for 134Ce. Subsequent radiolabelling and in vivo PET imaging experiments in a small animal model demonstrated that 134Ce (and its 134La daughter) could be used as a PET imaging candidate for 225AcIII (with reduced 134CeIII) or 227ThIV (with oxidized 134CeIV). Evaluating these data alongside X-ray absorption spectroscopy results demonstrated how success relied on rigorously controlling the CeIII/CeIV redox couple.
Keyphrases
- pet imaging
- positron emission tomography
- computed tomography
- energy transfer
- high resolution
- pet ct
- induced apoptosis
- quantum dots
- primary care
- physical activity
- healthcare
- magnetic resonance imaging
- fluorescent probe
- dual energy
- cell cycle arrest
- cancer therapy
- magnetic resonance
- cell death
- electronic health record
- big data
- human health
- cell proliferation
- drug delivery
- electron transfer