1. Radiosynthesis and pre-clinical evaluation of [ Ga] labeled antimicrobial peptide fragment GF-17 as a potential infection imaging PET radiotracer
- Author
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Anchal Ghai, Hans-Jürgen Wester, Anil Mishra, Shalini Chopra, Baljinder Singh, Stephanie Robu, Amritjyot Kaur, Neena Caplash, and Ashwani Koul
- Subjects
Radiation ,Molecular mass ,Chemistry ,Radiochemistry ,Radiosynthesis ,010403 inorganic & nuclear chemistry ,Antimicrobial ,01 natural sciences ,030218 nuclear medicine & medical imaging ,0104 chemical sciences ,03 medical and health sciences ,chemistry.chemical_compound ,0302 clinical medicine ,Renal physiology ,Lipophilicity ,Distribution (pharmacology) ,DOTA ,neoplasms ,Conjugate - Abstract
The antimicrobial peptide fragment GF-17 was synthesized in-house and conjugated with DOTA and measured molecular mass of DOTA-GF-17 conjugate was 2489 Da. The peptide conjugate was purified and labeled with [68Ga]. The best radiolabeling efficiency (95.0%) of [68Ga]DOTA-GF-17 was achieved at pH 4 with peptide conjugate amount of 20.0 nmol with 30 min of heating at 95 °C. The product remained stable for up to 3 h. The plasma protein binding and lipophilicity for [68Ga]DOTA-GF-17 were 80.98% and −3.12 respectively. The uptake studies with [68Ga]DOTA- GF-17 in S.aureus and P.aeruginosa bacterial strains demonstrated binding of 69.08% and 43.69% respectively. The animal bio-distribution and PET imaging studies were in agreement showing similar pattern for organs’ tracer distribution and renal excretion. The tracer had rapid blood clearance and uptake in bone marrow and muscles was very low. The highest uptake of [68Ga]DOTA-GF-17 was observed at 45 min and 120 min in S.aureus and P.aeruginosa infections respectively. [68Ga]DOTA-GF-17 could be a promising PET tracer and holds a great scope for taking the product further to perform extensive PET studies in animal infection (using gram negative/positive strains) models to prove the diagnostic utility of this novel PET tracer for futuristic clinical applications.
- Published
- 2019