UNLABELLED: 99mTc-labeled peptides, particularly those of a lipophilic nature, are often excreted through the hepatobiliary system, and the subsequent accumulation in the intestine may obscure receptor-mediated uptake in tumor sites in the pelvis. We have therefore explored the route and rate of excretion of a small series of Tc-labeled peptides to shed some light on the mechanisms that influence the clearance of these agents. METHODS: Pharmacokinetic parameters, biodistribution, routes of elimination of 99mTc-complexes of 3 model tetrapeptides--namely, acetyl-N-Gly-Gly-Cys-Gly (AGGCG), acetyl-N-Ser-Ser-Cys-Gly (ASSCG), and acetyl-N-Gly-Gly-Cys-Lys (AGGCL)--were determined in rats in vivo. Renal handling of the complexes was studied in the perfused rat kidney. RESULTS: After intravenous injection, a relatively fast disappearance of the complexes from blood was found. Although the parameters of distribution in all 3 chelates were very similar, the elimination rate of 99mTc-AGGCG was higher than those of 99mTc-ASSCG and 99mTc-AGGCL. The Tc complexes under study were distributed mainly to the excretory organs (kidneys and liver), and no specific accumulation in other organs or tissues was found. Most of the radioactivity after intravenous administration of the chelates was rapidly eliminated through the urine, but a significant amount was also excreted through the feces, in the following order among the 3 chelates: 99mTc-AGGCL < 99mTc-ASSCG < 99mTc-AGGCG. Different proportions of glomerular filtration and secretion in renal tubules of the complexes were found in the perfused rat kidney. Elimination by glomerular filtration was dominant only in the case of 99mTc-AGGCL, whereas the rate of filtration of 99mTc-AGGCG was very low because of its high protein binding. Various rates of secretion into renal tubules were shown for all 3 agents. This renal excretion pathway was decisive in 99mTc-AGGCG and lowest in 99mTc-AGGCL. 99mTc-ASSCG was eliminated by both mechanisms at similar rates. CONCLUSION: These studies show that increasing the hydrophilic nature or reducing the negative charge of the peptides will reduce their hepatobiliary excretion, whereas the incorporation of suitable peptide sequences permits them to exploit efficient routes of renal excretion, such as tubular secretion, thereby optimizing the pattern of biodistribution of these radiopharmaceuticals.
UNLABELLED: 99mTc-labeled peptides, particularly those of a lipophilic nature, are often excreted through the hepatobiliary system, and the subsequent accumulation in the intestine may obscure receptor-mediated uptake in tumor sites in the pelvis. We have therefore explored the route and rate of excretion of a small series of Tc-labeled peptides to shed some light on the mechanisms that influence the clearance of these agents. METHODS: Pharmacokinetic parameters, biodistribution, routes of elimination of 99mTc-complexes of 3 model tetrapeptides--namely, acetyl-N-Gly-Gly-Cys-Gly (AGGCG), acetyl-N-Ser-Ser-Cys-Gly (ASSCG), and acetyl-N-Gly-Gly-Cys-Lys (AGGCL)--were determined in rats in vivo. Renal handling of the complexes was studied in the perfused rat kidney. RESULTS: After intravenous injection, a relatively fast disappearance of the complexes from blood was found. Although the parameters of distribution in all 3 chelates were very similar, the elimination rate of 99mTc-AGGCG was higher than those of 99mTc-ASSCG and 99mTc-AGGCL. The Tc complexes under study were distributed mainly to the excretory organs (kidneys and liver), and no specific accumulation in other organs or tissues was found. Most of the radioactivity after intravenous administration of the chelates was rapidly eliminated through the urine, but a significant amount was also excreted through the feces, in the following order among the 3 chelates: 99mTc-AGGCL < 99mTc-ASSCG < 99mTc-AGGCG. Different proportions of glomerular filtration and secretion in renal tubules of the complexes were found in the perfused rat kidney. Elimination by glomerular filtration was dominant only in the case of 99mTc-AGGCL, whereas the rate of filtration of 99mTc-AGGCG was very low because of its high protein binding. Various rates of secretion into renal tubules were shown for all 3 agents. This renal excretion pathway was decisive in 99mTc-AGGCG and lowest in 99mTc-AGGCL. 99mTc-ASSCG was eliminated by both mechanisms at similar rates. CONCLUSION: These studies show that increasing the hydrophilic nature or reducing the negative charge of the peptides will reduce their hepatobiliary excretion, whereas the incorporation of suitable peptide sequences permits them to exploit efficient routes of renal excretion, such as tubular secretion, thereby optimizing the pattern of biodistribution of these radiopharmaceuticals.
Authors: Anzhelika Vorobyeva; Alexey Schulga; Elena Konovalova; Rezan Güler; John Löfblom; Mattias Sandström; Javad Garousi; Vladimir Chernov; Olga Bragina; Anna Orlova; Vladimir Tolmachev; Sergey M Deyev Journal: Sci Rep Date: 2019-06-28 Impact factor: 4.379