Kevin P. Maresca scite author profile

Prostate-specific membrane antigen (PSMA) is expressed in normal human prostate epithelium and is highly upregulated in prostate cancer. We previously reported a series of novel small molecule inhibitors targeting PSMA. Two compounds, MIP-1072, (S)-2-(3-((S)-1-carboxy-5-(4–iodobenzylamino)pentyl)ureido)pentanedioic acid and MIP-1095, (S)-2-(3-((S)-1-carboxy-5-(3-(4-iodophenyl)ureido)pentyl)ureido)pentanedioic acid, were selected for further evaluation. MIP-1072 and MIP-1095 potently inhibited the glutamate carboxypeptidase activity of PSMA (Ki = 4.6 ± 1.6 and 0.24 ± 0.14 nM, respectively), and when radiolabeled with 123I exhibited high affinity for PSMA on human prostate cancer LNCaP cells (Kd = 3.8 ± 1.3 and 0.81 ± 0.39 nM, respectively). The association of [123I]MIP-1072 and [123I]MIP-1095 with PSMA was specific; there was no binding to human prostate cancer PC3 cells, which lack PSMA, and binding was abolished by co-incubation with a structurally unrelated NAALADase inhibitor, 2-(phosphonomethyl)pentanedioic acid (PMPA). [123I]MIP-1072 and [123I]MIP-1095 internalized into LNCaP cells at 37 °C. Tissue distribution studies in mice demonstrated 17.3 ± 6.3 (at 1 hr) and 34.3 ± 12.7 (at 4 hr) % injected dose per gram of tissue, for [123I]MIP-1072 and [123I]MIP-1095, respectively. [123I]MIP-1095 exhibited greater tumor uptake but slower washout from blood and non-target tissues compared to [123I]MIP-1072. Specific binding to PSMA in vivo was demonstrated by competition with PMPA in LNCaP xenografts, and the absence of uptake in PC3 xenografts. The uptake of [123I]MIP-1072 and [123I]MIP-1095 in tumor bearing mice was corroborated by SPECT/CT imaging. PSMA-specific radiopharmaceuticals should provide a novel molecular targeting option for the detection and staging of prostate cancer.

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A Series of Halogenated Heterodimeric Inhibitors of Prostate Specific Membrane Antigen (PSMA) as Radiolabeled Probes for Targeting Prostate Cancer

Maresca

et al. 2008

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Prostate specific membrane antigen (PSMA) is a validated molecular marker for prostate cancer. A series of glutamate-urea (Glu-urea-X) heterodimeric inhibitors of PSMA were designed and synthesized where X = epsilon-N-(o-I, m-I, p-I, p-Br, o-Cl, m-Cl, p-Cl, p-F, H)-benzyl-Lys and epsilon-(p-I, p-Br, p-Cl, p-F, H)-phenylureido-Lys. The affinities for PSMA were determined by screening in a competitive binding assay. PSMA binding of the benzyllysine series was significantly affected by the nature of the halogen substituent (IC(50) values, Cl < I = Br << F = H) and the ring position of the halogen atom (IC(50) values, p-I < o-I << m-I). The halogen atom had little affect on the binding affinity in the para substituted phenylureido-Lys series. Two lead iodine compounds were radiolabeled with (123)I and (131)I and demonstrated specific PSMA binding on human prostate cancer cells, warranting evaluation as radioligands for the detection, staging, and monitoring of prostate cancer.

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Bridging the Gap between in Vitro and in Vivo Imaging: Isostructural Re and^99mTc Complexes for Correlating Fluorescence and Radioimaging Studies

et al. 2004

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A bifunctional ligand that is capable of forming Re and 99mTc complexes as complementary fluorescent and radioactive probes was developed. The tridentate bis(quinoline) amine ligand, which is referred to as the SAACQ system, was prepared in a single step from Fmoc protected lysine in high yield. Reaction of the SAACQ ligand with [Re(CO)3Br3]2- resulted in the formation of the SAACQ-(Re(CO)3)+complex which exhibits favorable fluorescence properties including a long lifetime and a large Stoke's shift. Because the SAACQ ligand is derived from an amino acid, it can readily be linked to or incorporated within peptides as a means of targeting the probe to specific receptors. To demonstrate this feature, the SAACQ ligand and the SAACQ-Re complex were incorporated into fMLFG, a peptide that binds to the formyl peptide receptor (FPR). Uptake of the fMLF[(SAACQ-Re(CO)3)+]G conjugate into human leukocytes in vitro was visualized by fluorescence microscopy, and the observed distribution of the peptide was similar to that of a well-established fluorescent FPR probe. The corresponding Tc complex, fMLF[(SAACQ-99mTc(CO)3)+]G, was prepared in excellent yield from [99mTc(CO)3(OH2)3]+, which affords the opportunity to correlate the results of the microscopy experiments with in vivo radioimaging studies because the probes are isostructural.

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^99mTc-Labeled Small-Molecule Inhibitors of Prostate-Specific Membrane Antigen for Molecular Imaging of Prostate Cancer

Hillier¹,

Maresca²,

Lu³

et al. 2013

J Nucl Med

201

143

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Kevin P. Maresca

Preclinical Evaluation of Novel Glutamate-Urea-Lysine Analogues That Target Prostate-Specific Membrane Antigen as Molecular Imaging Pharmaceuticals for Prostate Cancer

A Series of Halogenated Heterodimeric Inhibitors of Prostate Specific Membrane Antigen (PSMA) as Radiolabeled Probes for Targeting Prostate Cancer

Bridging the Gap between in Vitro and in Vivo Imaging: Isostructural Re and^99mTc Complexes for Correlating Fluorescence and Radioimaging Studies

^99mTc-Labeled Small-Molecule Inhibitors of Prostate-Specific Membrane Antigen for Molecular Imaging of Prostate Cancer

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Kevin P. Maresca

Preclinical Evaluation of Novel Glutamate-Urea-Lysine Analogues That Target Prostate-Specific Membrane Antigen as Molecular Imaging Pharmaceuticals for Prostate Cancer

A Series of Halogenated Heterodimeric Inhibitors of Prostate Specific Membrane Antigen (PSMA) as Radiolabeled Probes for Targeting Prostate Cancer

Bridging the Gap between in Vitro and in Vivo Imaging: Isostructural Re and99mTc Complexes for Correlating Fluorescence and Radioimaging Studies

99mTc-Labeled Small-Molecule Inhibitors of Prostate-Specific Membrane Antigen for Molecular Imaging of Prostate Cancer

Contact Info

Product

Resources

About

Bridging the Gap between in Vitro and in Vivo Imaging: Isostructural Re and^99mTc Complexes for Correlating Fluorescence and Radioimaging Studies

^99mTc-Labeled Small-Molecule Inhibitors of Prostate-Specific Membrane Antigen for Molecular Imaging of Prostate Cancer