Your search keyword '"Volkert WA"' showing total 17 results

1. Design and synthesis of a bombesin peptide-conjugated tripodal phosphino dithioether ligand topology for the stabilization of the fac-[M(CO)3]+ core (M=(99 m)Tc or Re).

Author

Kannan R, Pillarsetty N, Gali H, Hoffman TJ, Barnes CL, Jurisson SS, Smith CJ, and Volkert WA

Subjects

Crystallography, X-Ray, Kinetics, Ligands, Models, Molecular, Molecular Structure, Organometallic Compounds chemistry, Stereoisomerism, Bombesin chemistry, Carbon Monoxide chemistry, Organometallic Compounds chemical synthesis, Rhenium chemistry, Sulfhydryl Compounds chemistry, Technetium chemistry

Abstract

A new tumor-seeking tridentate topology consisting of a phosphino dithioether ((HOCH(2))(2)PCH(2)CH(2)S(CH(2))(n)CH(2)SR; PS(2)) ligand framework for the production of kinetically inert and in vivo stable facial [(99m)Tc(CO)(3)(PS(2))](+) or [Re(CO)(3)(PS(2))](+) is described. The X-ray crystal structure of fac-Re(CO)(3)(PS(2))PF(6) is reported. The bioconjugation strategies for incorporating bombesin (BBN) peptides on to the PS(2) tripodal framework and, thereby, de novo designing of GRP receptor-seeking Tc(PS(2)-BBN)(CO)(3) are developed., (© 2011 American Chemical Society)

Published

2011

2. Comparative evaluation of three 64Cu-labeled E. coli heat-stable enterotoxin analogues for PET imaging of colorectal cancer.

Author

Liu D, Overbey D, Watkinson LD, Smith CJ, Daibes-Figueroa S, Hoffman TJ, Forte LR, Volkert WA, and Giblin MF

Subjects

Animals, Escherichia coli Proteins, Female, Humans, Mice, Mice, Inbred ICR, Mice, SCID, Neoplasm Transplantation, Staining and Labeling, Bacterial Toxins chemistry, Colorectal Neoplasms diagnosis, Copper Radioisotopes chemistry, Enterotoxins chemistry, Positron-Emission Tomography methods

Abstract

Analogues of the E. coli heat-stable enterotoxin (STh) are currently under study as both imaging and therapeutic agents for colorectal cancer. Studies have shown that the guanylate cyclase C (GC-C) receptor is commonly expressed in colorectal cancers. It has also been shown that STh peptides inhibit the growth of tumor cells expressing GC-C. The ability to determine GC-C status of tumor tissue using in vivo molecular imaging techniques would provide a useful tool for the optimization of GC-C-targeted therapeutics. In this work, we have compared receptor binding affinities, internalization/efflux rates, and in vivo biodistribution patterns of an STh analogue linked to N-terminal DOTA, TETA, and NOTA chelating moieties and radiolabeled with Cu-64. The peptide F(19)-STh(2-19) was N-terminally labeled with three different chelating groups via NHS ester activation and characterized by RP-HPLC, ESI-MS, and GC-C receptor binding assays. The purified conjugates were radiolabeled with Cu-64 and used for in vitro internalization/efflux, in vivo biodistribution, and in vivo PET imaging studies. In vivo experiments were carried out using SCID mice bearing T84 human colorectal cancer tumor xenografts. Incorporation of DOTA-, TETA-, and NOTA-chelators at the N-terminus of the peptide F(19)-STh(2-19) resulted in IC(50)s between 1.2 and 3.2 nM. In vivo, tumor localization was similar for all three compounds, with 1.2-1.3%ID/g at 1 h pi and 0.58-0.83%ID/g at 4 h pi. The principal difference between the three compounds related to uptake in nontarget tissues, principally kidney and liver. At 1 h pi, (64)Cu-NOTA-F(19)-STh(2-19) demonstrated significantly (p < 0.05) lower uptake in liver than (64)Cu-DOTA-F(19)-STh(2-19) (0.36 +/- 0.13 vs 1.21 +/- 0.65%ID/g) and significantly (p < 0.05) lower uptake in kidney than (64)Cu-TETA-F(19)-STh(2-19) (3.67 +/- 1.60 vs 11.36 +/- 2.85%ID/g). Use of the NOTA chelator for coordination of Cu-64 in the context of E. coli heat-stable enterotoxin analogues results in higher tumor/nontarget tissue ratios at 1 h pi than either DOTA or TETA macrocycles. Heat-stable enterotoxin-based radiopharmaceuticals such as these provide a means of noninvasively determining GC-C receptor status in colorectal cancers by PET.

Published

2010

3. Evaluation of the pharmacokinetic effects of various linking group using the 111In-DOTA-X-BBN(7-14)NH2 structural paradigm in a prostate cancer model.

Author

Garrison JC, Rold TL, Sieckman GL, Naz F, Sublett SV, Figueroa SD, Volkert WA, and Hoffman TJ

Subjects

4-Aminobenzoic Acid chemistry, Animals, Binding, Competitive, Caprylates chemistry, Heterocyclic Compounds, 1-Ring chemistry, Humans, Isotope Labeling, Male, Mice, Mice, SCID, Models, Biological, Radionuclide Imaging, Bombesin analogs & derivatives, Neurotransmitter Agents chemistry, Organometallic Compounds chemical synthesis, Organometallic Compounds pharmacokinetics, Prostatic Neoplasms diagnostic imaging, Prostatic Neoplasms radiotherapy, Radiopharmaceuticals chemical synthesis, Radiopharmaceuticals pharmacokinetics

Abstract

The high incidence of BB2 receptor (BB2r) expression in various cancers has prompted investigators to pursue the development of BB2r-targeted agents for diagnostic imaging, chemotherapy, and radiotherapy. Development of BB2r-targeted agents, based on the bombesin (BBN) peptide, has largely involved the use of the bifunctional chelate approach in which the linking group serves several key roles including pharmacokinetic modification. Understanding the in vivo properties of the various pharmacokinetic modifying linking groups is crucial for developing BB2r-targeted agents with improved targeting and clearance characteristics. The goal of this study was to systematically evaluate the pharmacokinetic profile of aliphatic hydrocarbon, aromatic, and poly(ethylene glycol) (ether) functional groups in order to obtain a better understanding of the in vivo properties of these pharmacokinetic modifiers. Specifically, we synthesized six radioconjugates with the structure 111In-DOTA- X-BBN(7-14)NH2, where X = 8-aminooctanoic acid (8-AOC), 5-amino-3-oxapentyl-succinamic acid (5-ADS), 8-amino-3,6-dioxaoctyl-succinamic acid (8-AOS), p-aminobenzoic acid (AMBA), Gly-AMBA, and Gly- p-aminomethylbenzoic acid (Gly-AM2BA). All of the (nat)In-conjugates demonstrated nanomolar binding affinities to the BB2r. In CF-1 mice, the BB2r uptake in the pancreas of radioconjugates containing aromatic linking groups was found to be significantly higher at 1 h postinjection than the radioconjugates with ether linker moieties. For PC-3 tumor-bearing SCID mice, the tumor uptake was found to be 6.66 +/- 2.00, 6.21 +/- 1.57, 6.36 +/- 1.60, 4.46 +/- 0.81, and 7.76 +/- 1.19 %ID/g for the 8-AOC, 8-ADS, AMBA, Gly-AMBA, and Gly-AM2BA radioconjugates, respectively, at 15 min postinjection. By 24 h postinjection, the radioconjugates containing aromatic groups exhibited the highest percentage tumor retention with 11.4%, 19.8%, 26.6%, 25.8%, and 25.5% relative to the 15 min values remaining in the tumor tissue for the 8-AOC, 8-ADS, AMBA, Gly-AMBA, and Gly-AM2BA radioconjugates, respectively. Fused Micro-SPECT/CT imaging studies performed at 24 h postinjection revealed substantial accumulation of radioactivity in the tumor tissue for all radioconjugates. In both biodistribution and Micro-SPECT/CT imaging studies, the radioconjugates containing aromatic linking groups typically exhibited significantly higher G.I. tract retention than the hydrocarbon or ether linking moieties. In conclusion, our studies indicate that radioconjugates incorporating aromatic linking groups, of the type investigated, generally demonstrated enhanced retention in BB2r expressing tissues in comparison to either the hydrocarbon or ether linking moieties. Furthermore, this investigation clearly demonstrates the significance of the linking group upon not only the in vivo clearance of the radiopharmaceutical, but also on the in vivo uptake and retention of the BB2r-targeted agent in tumor tissue. Future designs of BB2r-targeted agents should include a careful consideration of the effect linking group functionality has upon tumor targeting and retention.

Published

2008

4. In vitro and in vivo comparison of human Escherichia coli heat-stable peptide analogues incorporating the 111In-DOTA group and distinct linker moieties.

Author

Giblin MF, Gali H, Sieckman GL, Owen NK, Hoffman TJ, Forte LR, and Volkert WA

Subjects

Animals, Cell Line, Tumor, Chelating Agents metabolism, Chelating Agents pharmacokinetics, Chromatography, High Pressure Liquid, Escherichia coli Proteins administration & dosage, Escherichia coli Proteins metabolism, Escherichia coli Proteins pharmacokinetics, Female, Humans, Indium Radioisotopes, Inhibitory Concentration 50, Mice, Molecular Structure, Molecular Weight, Neoplasm Transplantation, Protein Binding, Protein Denaturation, Protein Renaturation, Tissue Distribution, Chelating Agents chemistry, Escherichia coli Proteins chemistry, Hot Temperature

Abstract

Three human Escherichia coli heat-stable peptide (STh) analogues, each containing a DOTA chelating group, were synthesized by SPPS and oxidative refolding and compared in in vitro and in vivo systems. One analogue, DOTA-F19-STh(1-19), contains an N-terminal DOTA group attached via an amide bond linkage to an STh moiety which is essentially wild-type except for a Tyr to Phe alteration at position 19 of the molecule. A second analogue, DOTA-R1,4,F19-STh(1-19), differs from the first in that asparagine residues in positions 1 and 4 have been altered to arginine residues in order to examine the effect of positively charged groups in the linker domain. A third analogue, DOTA-11AUN-F19-STh(1-19), differs from the first in that it incorporates an 11-aminoundecanoic acid spacer group between the DOTA group and the first asparagine residue. In vitro competitive binding assays utilizing T-84 human colon cancer cells demonstrated that significant alterations to the N-terminal region of the STh molecule were well tolerated and did not significantly affect binding affinity of STh for the guanylyl cyclase C (GC-C) receptor. Internalization and efflux studies of the indium-labeled species demonstrated that inclusion of positive charge in the linker moiety inhibits internalization of the compound within tumor cells. The characteristics of the three analogues were compared in an in vivo model utilizing T-84 human colon cancer cell xenografts in SCID mice. Clearance of all analogues was rapid, primarily via renal excretion into the urine, with >89% ID excreted into the urine at 1 h pi for all analogues. The 111In-DOTA-R1,4,F19-STh(1-19) and 111In-DOTA-11AUN-F19-STh(1-19) analogues both had longer residence times in the blood than did the 111In-DOTA-F19-STh(1-19) analogue, probably accounting for increased %ID/g values for tumors and nontarget tissues at 1 h pi. At 4 h pi, significant differences between analogues were only seen with respect to metabolic routes of excretion, indicating that increased blood residence time did not result in increased tumor residualization. Reduction of hepatic uptake of these compounds, however, could have significance in the development of agents for the imaging of hepatic metastases. The ability to manipulate in vivo pharmacodynamics and tumor uptake of radiolabeled STh peptides through modification of linker moieties is under continuing investigation in order to produce optimal imaging and therapeutic radiopharmaceuticals.

Published

2004

5. In vitro and in vivo antitumor properties of tetrakis((trishydroxy- methyl)phosphine)gold(I) chloride.

Author

Pillarsetty N, Katti KK, Hoffman TJ, Volkert WA, Katti KV, Kamei H, and Koide T

Subjects

Animals, Antineoplastic Agents chemical synthesis, Cell Cycle drug effects, Dose-Response Relationship, Drug, Flow Cytometry, Magnetic Resonance Spectroscopy, Mice, Mice, Inbred BALB C, Neoplasm Transplantation, Neoplasms, Experimental mortality, Organogold Compounds, Organometallic Compounds chemistry, Phosphines chemistry, Tumor Cells, Cultured, Antineoplastic Agents pharmacology, Organometallic Compounds pharmacology, Phosphines pharmacology

Abstract

A novel hydrophilic gold compound, tetrakis((trishydroxymethyl)phosphine)gold(I) chloride 1, has been investigated for its antitumor properties. In vitro studies demonstrate that 1 is active against HCT-15, AGS, PC-3, and LNCaP tumor cells. Cell cycle analysis of the HCT-15 cells by flow cytometry revealed elongation of the G1 phase of the cell cycle leading to growth inhibition. Administration of 1 to Balb/C mice inoculated with syngenic meth/A cells demonstrated statistically significant dose-dependent survival time.

Published

2003

6. Radiochemical investigations of (99m)Tc-N(3)S-X-BBN[7-14]NH(2): an in vitro/in vivo structure-activity relationship study where X = 0-, 3-, 5-, 8-, and 11-carbon tethering moieties.

Author

Smith CJ, Gali H, Sieckman GL, Higginbotham C, Volkert WA, and Hoffman TJ

Subjects

Amino Acid Sequence, Animals, Bombesin pharmacokinetics, Cross-Linking Reagents, Humans, Injections, Mice, Neoplasm Proteins metabolism, Organotechnetium Compounds metabolism, Organotechnetium Compounds pharmacokinetics, Peptide Fragments metabolism, Peptide Fragments pharmacokinetics, Protein Binding, Radiopharmaceuticals metabolism, Radiopharmaceuticals pharmacokinetics, Receptors, Bombesin metabolism, Structure-Activity Relationship, Tissue Distribution, Tumor Cells, Cultured, Bombesin analogs & derivatives, Organotechnetium Compounds chemical synthesis, Peptide Fragments chemical synthesis, Radiopharmaceuticals chemical synthesis

Abstract

Bombesin (BBN), a 14 amino acid peptide, is an analogue of human gastrin releasing peptide (GRP) that binds to GRP receptors (GRPr) with high affinity and specificity. The GRPr is overexpressed on a variety of human cancer cells, including prostate, breast, lung, and pancreatic cancers. The specific aim of this study was to develop (99m)Tc-radiolabeled BBN analogues that maintain high specificity for the GRPr in vivo. A preselected synthetic sequence via solid-phase peptide synthesis (SPPS) was designed to produce N(3)S-BBN (N(3)S = dimethylglycyl-l-seryl-l-cysteinylglycinamide) conjugates with the following general structure: DMG-S-C-G-X-Q-W-A-V-G-H-L-M-(NH(2)), where the spacer group, X = 0 (no spacer), omega-NH(2)(CH(2))(2)COOH, omega-NH(2)(CH(2))(4)COOH, omega-NH(2)(CH(2))(7)COOH, or omega-NH(2)-(CH(2))(10)COOH. The new BBN constructs were purified by reversed phase-HPLC (RP-HPLC). Electrospray mass spectrometry (ES-MS) was used to characterize the nonmetalated BBN conjugates. Re(V)-BBN conjugates were prepared by the reaction of Re(V)gluconate with N(3)S-X-BBN[7-14]NH(2) (X = 0 carbons, beta-Ala (beta-alanine), 5-Ava (5-aminovaleric acid), 8-Aoc (8-aminooctanoic acid), and 11-Aun (11-aminoundecanoic acid)) with gentle heating. Re-N(3)S-5-Ava-BBN[7-14]NH(2) was also prepared by the reaction of [Re(V)dimethylglycyl-l-seryl-l-cysteinylglycinamide] with 5-Ava-BBN[7-14]NH(2). ES-MS was used to determine the molecular constitution of the new Re(V) conjugates. The (99m)Tc conjugates were prepared at the tracer level by each the prelabeling, post-conjugation and pre-conjugation, postlabeling approaches from the reaction of Na[(99m)TcO(4)] with excess SnCl(2), sodium gluconate, and corresponding ligand. The (99m)Tc and Re(V) conjugates behaved similarly under identical RP-HPLC conditions. In vitro and in vivo models demonstrated biological integrity of the new conjugates.

Published

2003

7. Chemistry of bifunctional photoprobes. 6. Synthesis and characterization of high specific activity metalated photochemical probes: development of novel rhenium photoconjugates of human serum albumin and fab fragments.

Author

Rajagopalan R, Kuntz RR, Sharma U, Volkert WA, and Pandurangi RS

Subjects

Catalysis, Humans, Immunoglobulin Fab Fragments metabolism, Ligands, Magnetic Resonance Spectroscopy, Molecular Structure, Organotechnetium Compounds, Photochemistry methods, Photolysis, Serum Albumin metabolism, Time Factors, Tissue Distribution, Chelating Agents chemical synthesis, Immunoglobulin Fragments metabolism, Organometallic Compounds chemical synthesis, Radioisotopes chemistry, Rhenium chemistry

Abstract

Functionalization of perfluoro aryl azides by bifunctional chelating agents (BFCAs) capable of forming high specific activity complexes with (99m)Tc (for gamma-imaging) and (188)Re (for radiotherapy) is described. The synthesis of multidonor BFCAs containing N(2)S(2), N(4), and N(3)S donor groups containing imidazole, pyridine, and pyrazine functionalities that may be important for tuning the pharmacokinetic parameters is also described. Functionalization of perfluoro aryl azides at various sites on BFCAs yields novel bifunctional photolabile chelating agents (BFPCAs) that are useful for covalent attachment to biomolecules. A representative Re-BFPCA 8a in a model solvent, diethylamine, proceeded to give a high yield of intermolecular NH insertion product without the decomplexation of the metal ion from 8a. All products originated from the photolysis of 8a in diethylamine are characterized by analytical techniques, and a plausible mechanism of formation of different photolytic products is suggested. The high yield of intermolecular NH insertion of Re-BFPCA 8a is extended to labeling of human serum albumin (HSA) and Fab fragments under aqueous conditions. The photolabeling technology developed here offers a new way to attach diagnostically and therapeutically useful radiotracers (e.g., (99m)Tc, (188)Re) to Fab fragments for potential noninvasive imaging and therapy of cancer.

Published

2002

8. Exceptional kinetic propensity of hydroxymethyl phosphanes toward Rh(III) stabilization in water.

Author

Raghuraman K, Pillarsetty N, Volkert WA, Barnes C, Jurisson S, and Katti KV

Subjects

Crystallography, X-Ray, Molecular Structure, Solutions, Water chemistry, Organometallic Compounds chemistry, Phosphines chemistry, Ruthenium chemistry

Abstract

The reactions of (HOCH2)2P(C6H4)P(CH2OH)2 (HMPB) and P(CH2OH)3 (THP) with RhCl3.xH2O in aqueous media gave water-soluble complexes cis-[RhCl2{eta2-(HOCH2)2P(C6H4)P(CH2OH)2}2]Cl (3) and fac-[RhCl3(P(CH2OH)3)3] (4) respectively in good yields, X-ray crystal structures of 3 and 4 confirmed their molecular constitution. These reactions provide the first examples demonstrating the kinetic propensity of hydroxymethyl phosphanes to stabilize Rh in +3 oxidation state in water.

Published

2002

9. Chemical synthesis of Escherichia coli ST(h) analogues by regioselective disulfide bond formation: biological evaluation of an (111)In-DOTA-Phe(19)-ST(h) analogue for specific targeting of human colon cancers.

Author

Gali H, Sieckman GL, Hoffman TJ, Owen NK, Mazuru DG, Forte LR, and Volkert WA

Subjects

Animals, Bacterial Toxins metabolism, Bacterial Toxins therapeutic use, Binding, Competitive, Chromatography, High Pressure Liquid, Colonic Neoplasms metabolism, Enterotoxins metabolism, Enterotoxins therapeutic use, Escherichia coli Proteins, Female, Humans, Indium Radioisotopes chemistry, Inhibitory Concentration 50, Mice, Mice, SCID, Molecular Structure, Neoplasm Transplantation, Radiopharmaceuticals metabolism, Radiopharmaceuticals therapeutic use, Tumor Cells, Cultured, Tumor Protein, Translationally-Controlled 1, Bacterial Toxins chemical synthesis, Bacterial Toxins pharmacokinetics, Colonic Neoplasms drug therapy, Disulfides metabolism, Enterotoxins chemical synthesis, Enterotoxins pharmacokinetics, Escherichia coli chemistry, Heterocyclic Compounds, 1-Ring chemistry, Radiopharmaceuticals chemical synthesis, Radiopharmaceuticals pharmacokinetics

Abstract

New human Escherichia coli heat-stable peptide (ST(h)) analogues containing a DOTA chelating group were synthesized by sequential and selective formation of disulfides bonds in the peptide. This synthetic approach utilizes three orthogonal thiol-protecting groups, Trt, Acm, and t-Bu, to form three disulfide bonds by successive reactions using 2-PDS, iodine, and silyl chloride-sulfoxide systems. The DOTA-ST(h) conjugates exhibiting high guanylin/guanylate cyclase-C (GC-C) receptor binding affinities were obtained with >98% purity. In vitro competitive binding assays, employing T-84 human colon cancer cells, demonstrated the IC(50) values of <2 nM for GC-C receptor binding suggesting that the new synthetic ST(h) analogues are biologically active. In vitro stability studies of the (111)In-DOTA-Phe(19)-ST(h) conjugate incubated in human serum at 37 degrees C under 5% CO(2) atmosphere revealed that this conjugate is extremely stable with no observable decomposition at 24 h postincubation. HPLC analysis of mouse urine at 1 h pi of the (111)In-DOTA-Phe(19)-ST(h) conjugate showed only about 15% decomposition suggesting that the (111)In-DOTA-Phe(19)-ST(h) conjugate is highly stable, even under in vivo conditions. In vivo pharmacokinetic studies of the (111)In-DOTA-Phe(19)-ST(h) conjugate in T-84 human colon cancer derived xenografts in SCID mice conducted at 1 h pi showed an initial tumor uptake of 2.04 +/- 0.30% ID/g at 1 h pi with efficient clearance from the blood pool (0.23 +/- 0.14% ID/g, 1 h pi) by excretion mainly through the renal/urinary pathway (95.8 +/- 0.2% ID, 1 h pi). High tumor/blood, tumor/muscle, and tumor/liver ratios of approximately 9:1, 68:1, and 26:1, respectively, were achieved at 1 h pi The specific in vitro and in vivo uptake of the radioactivity by human colonic cancer cells highlights the potential of radiometalated-DOTA-ST(h) conjugates as diagnostic/therapeutic radiopharmaceuticals.

Published

2002

10. Development of novel water-soluble, organometallic compounds for potential use in nuclear medicine: synthesis, characterization, and (1)H and (31)P NMR investigations of the complexes fac-[ReBr(CO)3L] (L=bis(bis(hydroxymethyl)phosphino)ethane, bis(bis(hydroxymethyl)phosphino)benzene).

Author

Schibli R, Katti KV, Volkert WA, and Barnes CL

Subjects

Crystallography, X-Ray, Magnetic Resonance Spectroscopy, Organometallic Compounds chemistry, Radiopharmaceuticals chemistry

Abstract

The bidentate, water-soluble phosphine ligands, bis(bis(hydroxymethyl)phosphino)benzene (HMPB, 1) and bis(bis(hydroxymethyl)phosphino)ethane (HMPE, 2) were reacted with the organometallic precursor fac-[ReBr(3)(CO)(3)](2-), 3, to produce the complexes fac-[Re(OH(2))(CO)(3)L](+) and fac-[ReBr(CO)(3)L] (L = HMPE, HMPB), respectively, in good yields. The rhenium complexes fac-[ReBr(CO)(3)HMPB], 5, and fac-[ ReBr(CO)(3)HMPE], 8, were characterized using (1)H and (31)P NMR spectroscopy. The structure of fac-[ReBr(CO)(3)HMPB] was confirmed by single-crystal X-ray spectroscopy. The substitution reactions of HMPE/HMPB with the rhenium precursor 3 in aqueous solution were monitored using time-dependent (31)P NMR techniques. A significant discrepancy in the reaction kinetics and the substitution mechanism between the two bidentate ligands could be observed presumably due to the different chemical backbones.

Published

2001

11. Synthesis, characterization, and labeling with 99mTc/188Re of peptide conjugates containing a dithia-bisphosphine chelating agent.

Author

Gali H, Hoffman TJ, Sieckman GL, Owen NK, Katti KV, and Volkert WA

Subjects

3T3 Cells, Animals, Biological Availability, Chelating Agents chemical synthesis, Chelating Agents metabolism, Chelating Agents pharmacokinetics, Humans, Mice, Mice, SCID, Neoplasm Proteins metabolism, Neoplasm Transplantation, Organotechnetium Compounds chemical synthesis, Organotechnetium Compounds metabolism, Organotechnetium Compounds pharmacokinetics, Peptides chemical synthesis, Peptides metabolism, Radioisotopes, Radioligand Assay, Radiopharmaceuticals metabolism, Receptors, Bombesin metabolism, Transplantation, Heterologous, Tumor Cells, Cultured, Peptides pharmacokinetics, Radiopharmaceuticals chemical synthesis, Radiopharmaceuticals pharmacokinetics, Rhenium, Technetium

Abstract

Radiolabeling of small receptor-avid peptides at specific predetermined chelation sites with radioactive metals has been an effective approach for production of target-specific radiopharmaceuticals for diagnosis and therapy of diseases. Among various electron-donating groups found on chelator frameworks, phosphines are unique because they display versatile coordination chemistry with a wide range of transition metals. We have recently reported the utility of a dithia-bis(hydroxymethyl)phosphine-based (P2S2) bifunctional chelating agent (BFCA) containing air-stable primary phosphine groups to form 99mTc-labeled receptor-avid peptides by the preconjugation approach. Here we report a novel strategy for labeling small peptides with both 99mTc and 188Re using the P2S2-COOH (6,8-bis[3-(bis(hydroxymethyl)phosphanyl)propylsulfanyl]octanoic acid) BFCA by a postconjugation radiolabeling approach. The first step in this approach involves the coupling of the corresponding (PH2)2S2-COOH intermediate to the N-terminus of the peptide(s). Formylation of P-H bonds with aqueous formaldehyde in the presence of HCl in ethanol affords the corresponding (hydroxymethyl)phosphine-P2S2-peptide conjugates in the form of an oxidatively stable phosphonium salt. The P2S2-peptide conjugates are generated (where the PH2 groups are converted to P(CH2OH)2 groups) by treatment of the P2S2-peptide phosphonium salt(s) with 1 M sodium bicarbonate solution at pH 8.5. Complexation of BFCA conjugates with 99mTc is achieved by direct reduction with Sn(II) tartarate to yield the 99mTc-P2S2-peptide conjugate in near quantitative yields. Complexation of the BFCA conjugates with 188Re is achieved by transchelation with 188Re citrate in yields of >/=90%. In this study, (PH2)2S2-COOH BFCA was conjugated to model peptides. The glycineglycine ethyl ester (GlyGlyOEt)-(PH2)2S2-COOH BFCA conjugate was converted to the hydroxymethylene phosphine form and complexed with 99mTc to produce the 99mTcO2-P2S2-GlyGlyOEt conjugate 8 in RCPs of >/=95%. This singular 99mTc product is stable over 24 h in aqueous solution as confirmed by HPLC. Identical retention times of the 99mTcO2-P2S2-GlyGlyOEt complex and its cold rhenium analogue (ReO2-P2S2-GlyGlyOEt) on HPLC indicates similarity in structures at the macroscopic and the tracer levels. The utility of this postconjugation strategy was further demonstrated by synthesizing a P2S2-D-Lys6-LHRH conjugate and producing its corresponding 99mTc complex in RCPs of >/=88%. Finally, the P2S2-5-Ava-BBN[7-14]NH2 bombesin (BBN) analogue was synthesized, the PH2 groups converted to P(CH2OH)2 groups and subsequently labeled with 188Re to yield a 188Re-labeled bombesin analogue with a RCP of >/=90%. The biological integrity of this conjugate was demonstrated in both in vitro and in vivo. The results of this investigation demonstrate that the (PH2)2S2-COOH BFCA can be conveniently used as a precursor for labeling small receptor-avid peptides with diagnostic (99mTc) and therapeutic (188Re) radionuclides via the postconjugation approach in high yields.

Published

2001

12. Therapeutic radiopharmaceuticals.

Author

Volkert WA and Hoffman TJ

Published

1999

13. 99mTc-labeling and in vivo studies of a bombesin analogue with a novel water-soluble dithiadiphosphine-based bifunctional chelating agent.

Author

Karra SR, Schibli R, Gali H, Katti KV, Hoffman TJ, Higginbotham C, Sieckman GL, and Volkert WA

Subjects

3T3 Cells, Animals, Binding, Competitive, Bombesin chemical synthesis, Bombesin pharmacokinetics, Bombesin physiology, Chelating Agents, Indicators and Reagents, Isotope Labeling methods, Kinetics, Mice, Models, Molecular, Peptide Fragments chemistry, Peptide Fragments pharmacokinetics, Peptide Fragments physiology, Radioligand Assay methods, Receptors, Bombesin metabolism, Bombesin analogs & derivatives, Peptide Fragments chemical synthesis, Radiopharmaceuticals chemical synthesis, Receptors, Bombesin analysis, Technetium pharmacokinetics

Abstract

Recent progress in the synthesis of water-soluble phosphine ligand systems and their corresponding 99mTc complexes prompted the development of a new bifunctional chelating agent (BFCA) based on a tetradentate dithiadiphosphine framework (P2S2-COOH). The detailed synthesis of this new BFCA is described here. The corresponding 99mTc complex, 99mTc-P2S2-COOH, can be formed in >95% yield. To demonstrate the potential of this chelate to efficiently label peptides, 99mTc-P2S2-COOH was coupled to the N-terminal region of the truncated nine-amino acid bombesin analogue, 5-Ava-Gln-Trp-Ala-Val-Gly-His-Leu-Met-NH2 [BBN(7-14)], to form 99mTc-P2S2-BBN(7-14). Conjugation to the peptide was performed in borate buffer (pH 8.5) by applying the prelabeling approach in yields of >60%. In competitive binding assays, using Swiss 3T3 mouse fibroblast cells against [125I-Tyr4]bombesin, Re-P2S2-BBN(7-14) exhibited an IC50 value of 0.8 +/- 0.4 nM. The pharmacokinetic studies of 99mTc-P2S2-BBN(7-14) and its ability to target tissue expressing gastrin-releasing peptide (GRP) receptors were performed in normal mice. The 99mTc-P2S2-BBN(7-14) exhibited fast and efficient clearance from the blood pool (0.6 +/- 0.1% ID, 4 h postinjection) and excretion through the renal and hepatobiliary pathways (56.4 +/- 8.2 and 28.1 +/- 7.9% ID, 4 h postinjection, respectively). Significant uptake in the pancreas was observed (pancreatic acini cells express bombesin/GRP receptors), producing pancreas:blood and pancreas:muscle ratios of ca. 22 and 80, respectively, at 4 h postinjection.

Published

1999

14. Chemistry in Environmentally Benign Media. 7.(1) Chelating Hydroxymethyl-Functionalized Bisphosphines as Building Blocks to Water-Soluble and in-Vitro-Stable Gold(I) Complexes. Synthesis, Characterization, and X-ray Crystal Structures of [Au{(HOH(2)C)(2)PC(6)H(4)P(CH(2)OH)(2)}(2)]Cl and [Au(2){(HOH(2)C)(2)PCH(2)CH(2)P(CH(2)OH)(2)}(2)]Cl(2).

Author

Berning DE, Katti KV, Barnes CL, Volkert WA, and Ketring AR

Abstract

The reactions of water-soluble bisphosphines (HOH(2)C)(2)PC(6)H(4)P(CH(2)OH)(2) (1) and (HOH(2)C)(2)PCH(2)CH(2)P(CH(2)OH)(2) (2) with NaAuCl(4), in aqueous media, or AuClPPh(3), in biphasic media (aqueous/organic), produced the water/alcoholic-soluble Au(I) complexes [Au{(HOH(2)C)(2)PC(6)H(4)P(CH(2)OH)(2)}(2)]Cl (3), [Au{(HOH(2)C)(2)PCH(2)CH(2)P(CH(2)OH)(2)}(2)]Cl (4), and [Au(2){(HOH(2)C)(2)PCH(2)CH(2)P(CH(2)OH)(2)}(2)]Cl(2) (5) in near quantitative yields. Stability and cysteine-challenge studies of 3 indicate the kinetic inertness of these new complexes. Complex 5 is luminescent in the solid state at room temperature. When excited at 280 nm in non-degassed water at room temperature, the emission spectrum shows a high-energy band at 310 nm and a low-energy band at 560 nm. The large Stokes shift for the low-energy band implies that the emission is phosphorescence. The X-ray structures of 3 and 5, reported in this paper, confirm the gold(I) structures of this new generation of water-soluble transition metal complexes. All compounds were characterized by (31)P and (1)H NMR spectroscopy and mass spectroscopy. X-ray data for 3: monoclinic, P2(1)/m, a = 9.8715(5) Å, b = 9.9465(5) Å, c = 14.5621(8) Å, beta = 106.5930(10) degrees, Z = 2, R = 0.032 (R(w) = 0.050). X-ray data for 5: monoclinic, C2/c, a = 29.7128(14) Å, b = 16.7062(8) Å, c = 22.3762 (11) Å, beta = 117.6970(10) degrees, Z = 16, R = 0.051 (R(w) = 0.072).

Published

1997

15. Chemistry of Bifunctional Photoprobes. 1. Perfluoroaryl Azido Functionalized Phosphorus Hydrazides as Novel Photoreactive Heterobifunctional Chelating Agents: High Efficiency Nitrene Insertion on Model Solvents and Proteins.

Author

Pandurangi RS, Karra SR, Katti KV, Kuntz RR, and Volkert WA

Abstract

Synthesis and evaluation of a new class of photochemically activated heterobifunctional chelating agents for protein modification is described. Selective functionalization of perfluoroaryl azides by versatile phosphorus hydrazide ligating systems 2 and 3 for the complexation of transition metals and analogous radiometals form the basis for these new agents. The utility of the photogenerated precursors from these bifunctional agents to form covalent attachments is demonstrated through examination of C-H bond insertion on cyclohexane. Representative amide-coupled phosphorus hydrazides 5 and 6 provide >78% insertion of the probe into unactivated C-H bonds of cyclohexane with short photolysis times. Photoconjugation of the photoactivable heterobifunctional chelating agent 6 and its Pd metalated analog 7 with HSA is also evaluated. The uncomplexed chelate appears to add to HSA with high efficiency, consistent with the observed 82% bond insertion into model solvents. Covalent attachment of 7, evaluated through the use of (109)Pd, was estimated to be between 49% and 74% with the uncertainty arising because of prephotolysis association of the (109)Pd complex with HSA. The application of in situ (19)F NMR to distinguish between bond insertion and noninsertion processes is demonstrated. These results suggest that functionalized perfluoroaryl azido phosphorus hydrazides may find utility as heterobifunctional photolabeling agents for attaching radionuclides to proteins and antibodies.

Published

1997

16. High efficiency photolabeling of human serum albumin and human gamma-globulin with [14C]methyl 4-azido-2,3,5,6-tetrafluorobenzoate.

Author

Pandurangi RS, Karra SR, Kuntz RR, and Volkert WA

Subjects

Affinity Labels chemical synthesis, Benzoates chemical synthesis, Benzoates chemistry, Chromatography, Gel, Cyclohexanes, Humans, Immunoglobulin G chemistry, Photochemistry, Photolysis, Scintillation Counting, Affinity Labels chemistry, Serum Albumin chemistry, gamma-Globulins chemistry

Abstract

The efficiency of photolabeling of HSA and IgG with [14C]methyl 4-azido-2,3,5,6-tetrafluorobenzoate has been studied using size exclusion chromatography in conjunction with liquid scintillation counting. Labeling efficiencies of 78% for HSA and 82% for IgG have been determined. The extent of bond insertion into proteins exceeds the C-H insertion efficiency in cyclohexane with less wastage into anilinium and azo side products. These results suggest that the photoprobe accesses hydrophobic regions of both proteins prior to photolysis.

Published

1995

17. The reactions of hydrogen atoms in aqueous solutions. Some amino acids.

Author

Volkert WA and Kuntz RR

Subjects

Chemical Phenomena, Chemistry, Physical, Solutions, Water radiation effects, Amino Acids, Hydrogen

Published

1968