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Pathways Recommended: Membrane Transporter/Ion Channel
Results for "

Prostate-specific membrane antigen

" in MedChemExpress (MCE) Product Catalog:

22

Inhibitors & Agonists

1

Biochemical Assay Reagents

5

Peptides

2

Inhibitory Antibodies

1

Natural
Products

Cat. No. Product Name Target Research Areas Chemical Structure
  • HY-P5290

    PSMA Cancer
    HYNIC-PSMA is a ligand for molecular imaging of tumors. Hynic-psma consists of two components: HYNIC (6-hydrazinonicotinamide) and PSMA (Prostate-Specific Membrane Antigen). HYNIC is a compound used to attach radioactive isotopes to targeted molecules, such as 188Re-HYNIC-PSMA. PSMA is a membrane antigen that is specifically expressed on the surface of prostate cancer cells. HYNIC-PSMA can be used in prostate cancer research .
    HYNIC-PSMA
  • HY-148761

    PSMA Cancer
    PSMA I&T is an effective inhibitor of prostate-specific membrane antigen (PSMA). PSMA I&T can be used for SPECT/CT imaging and radionuclide studies in triple-negative breast cancer and prostate cancer (PCa) .
    PSMA I&T
  • HY-103591
    DUPA(OtBu)-OH
    1 Publications Verification

    PSMA Cancer
    DUPA(OtBu)-OH is a DUPA precursor. DUPA is used as the targeting moiety to actively deliver Docetaxel (DTX) for treatment of Prostate-Specific Membrane Antigen (PSMA) expressing prostate cancer.
    DUPA(OtBu)-OH
  • HY-153550

    PSMA Others
    PSMA-1007 is a prostate-specific membrane antigen (PSMA) ligand. 18F-labeled PSMA-1007 can be used as a PET tracer for prostate cancer imaging .
    PSMA-1007
  • HY-P5292A

    PSMA Cancer
    HYNIC-iPSMA TFA is a ligand for molecular imaging of tumors. Hynic-ipsma consists of two components: HYNIC (6-hydrazinonicotinamide) and iPSMA (Inhibitor of Prostate-Specific Membrane Antigen). HYNIC is a compound used to attach radioactive isotopes to targeted molecules. iPSMA is a specific inhibitor used to inhibit prostate-specific membrane antigen (PSMA). 68GA-labeled iPSMA has been used to detect prostate cancer by PET imaging. The further 99mTc-EDDA/HYNIC-iPSMA TFA has excellent specificity and sensitivity .
    HYNIC-iPSMA TFA
  • HY-117410
    Vipivotide tetraxetan
    Maximum Cited Publications
    11 Publications Verification

    PSMA-617

    Drug-Linker Conjugates for ADC Cancer
    Vipivotide tetraxetan (PSMA-617) is a high potent prostate-specific membrane antigen (PSMA) inhibitor, with a Ki of 0.37 nM. Vipivotide tetraxetan (PSMA-617) is designed consisting of three components: the pharmacophore Glutamate-urea-Lysine, the chelator DOTA able to complex both 68Ga or 177Lu, and a linker connecting these two entities. Glutamate-urea-Lysine is the selective pharmacophore to bind to prostate specific membrane antigen.
    Vipivotide tetraxetan
  • HY-141729

    Fluorescent Dye Cancer
    Biotin-NH-PSMA-617 is a biotin-tagged PSMA-617. PSMA-617 is a small molecule targeting the prostate-specific membrane antigen (PSMA), which is directly expressed by the tumor cells .
    Biotin-NH-PSMA-617
  • HY-128938A

    ADC Linker Cancer
    EC1167 hydrochloride is the linker for EC1169. EC1169 is prostate-specific membrane antigen targeting-tubulysin conjugate. EC1169 hydrochloride has the potential to treat recurrent metastatic, castration-resistant prostate cancer (MCRPC) .
    EC1167 hydrochloride
  • HY-P5292

    PSMA Cancer
    HYNIC-iPSMA is a ligand for molecular imaging of tumors. Hynic-ipsma consists of two components: HYNIC (6-hydrazinonicotinamide) and iPSMA (Inhibitor of Prostate-Specific Membrane Antigen). HYNIC is a compound used to attach radioactive isotopes to targeted molecules. iPSMA is a specific inhibitor used to inhibit prostate-specific membrane antigen (PSMA). 68GA-labeled iPSMA has been used to detect prostate cancer by PET imaging. The further 99mTc-EDDA/HYNIC-iPSMA has excellent specificity and sensitivity .
    HYNIC-iPSMA
  • HY-128938

    ADC Linker Cancer
    EC1167 is the linker for EC1169. EC1169 is prostate-specific membrane antigen targeting-tubulysin conjugate. EC1169 has the potential to treat recurrent metastatic, castration-resistant prostate cancer (MCRPC) .
    EC1167
  • HY-111895B
    Macropa-NH2 TFA
    3 Publications Verification

    Others Others
    Macropa-NH2 TFA is the precursor of Macropa-NCS. Macropa-NCS is conjugated to trastuzumab as well as to the prostate-specific membrane antigen-targeting compound RPS-070 and is a promising therapeutic radionuclide applied in the treatment of soft-tissue metastases .
    Macropa-NH2 TFA
  • HY-129615

    PSMA Cancer
    MIP-1072 is a small molecule specific prostate-specific membrane antigen (PSMA) inhibitor. MIP-1072 inhibits the glutamate carboxypeptidase activity of PSMA with an Ki value of 4.6 nM. MIP-1072 is promising for research of prostate cancer .
    MIP-1072
  • HY-W054292

    PSMA Cancer
    tert-Butyl-DCL is a small molecule PSMAM inhibitor with anticancer activity that targets prostate-specific membrane antigen (PSMA). tert-Butyl-DCL is also an effective bioimaging agent that has high selectivity and affinity, allowing it to target and highlight specific receptors on the surface of tumor cells .
    tert-Butyl-DCL
  • HY-111895A
    Macropa-NH2 hydrochloride
    3 Publications Verification

    Others Cancer
    Macropa-NH2 hydrochloride is the precursor of Macropa-NCS. Macropa-NCS is conjugated to Anti-Human HER2 (HY-P9907) as well as to the prostate-specific membrane antigen-targeting compound RPS-070 and is a promising therapeutic radionuclide applied in the treatment of soft-tissue metastases .
    Macropa-NH2 hydrochloride
  • HY-43869

    PSMA-617 Ligand-Linker Conjugate

    ADC Linker Cancer
    Vipivotide tetraxetan Ligand-Linker Conjugate (PSMA-617 Ligand-Linker Conjugate) is a complex composed of pharmacophore group Glutamate-urea-Lysine peptide coupling linker, which can be used to synthesize Vipivotide tetraxetan (PSMA-617). Glutamate-urea-Lysine selectively binds to prostate-specific membrane antigen (PSMA) .
    Vipivotide tetraxetan Ligand-Linker Conjugate
  • HY-125399

    HBED-CC-PSMA

    PSMA Radionuclide-Drug Conjugates (RDCs) Cancer
    PSMA-11 is a small molecule ligand that targets prostate-specific membrane antigen (PSMA) and has the ability to inhibit PSMA activity. PSMA-11 can be used to synthesize 68Ga-PSMA-11, a positron emission tomography (PET) tracer that can be used to image advanced prostate cancer .
    PSMA-11
  • HY-117756

    DCFPYL

    PSMA Others Cancer
    Piflufolastat (DCFPYL) can be used to the preparation of piflufolastat F 18 (DCFPyL F-18). piflufolastat F 18. Piflufolastat F-18 is an 18F-labelled diagnostic imaging agent. Piflufolastat F-18 can be used for positron emission tomography (PET) that targets prostate-specific membrane antigen (PSMA) .
    Piflufolastat
  • HY-161699

    PSMA Cancer
    SDTWS01 is a novel 68Ga-labeled prostate-specific membrane antigen (PSMA) targeting tracer. The inhibition constant (Ki) of SDTWS01 for PSMA is in the nanomolar range (less than 10 nM), demonstrating high affinity for PSMA. SDTWS01 exhibits significant tumor uptake and superior PET imaging effects. SDTWS01 can be utilized for diagnostic research of prostate cancer .
    SDTWS01
  • HY-16215

    G-202

    Drug-Linker Conjugates for ADC Cancer
    Mipsagargin (G-202) is a novel thapsigargin-based targeted proagent consisting of a prostate-specific membrane antigen (PSMA)-specific peptide coupled to an analog of the potent sarcoplasmic/endoplasmic reticulum calcium adenosine triphosphatase (SERCA) pump inhibitor Thapsigargin (HY-13433). Mipsagargin is activated by PSMA-mediated cleavage of an inert masking peptide. Mipsagargin has the potential for refractory, advanced or metastatic solid tumours research .
    Mipsagargin
  • HY-147287

    PSMA Cancer
    Glu-urea-Glu-NHS ester (compound 21) is an activated N-hydroxysuccinamide (NHS) ester of Glu-urea-Glu which can be used as a pharmacophore for linking with prostate specific membrane antigen (PSMA) inhibitors .
    Glu-urea-Glu-NHS ester
  • HY-164575

    Radionuclide-Drug Conjugates (RDCs) PSMA Cancer
    NH2-NODAGA is a NODAGA-type metal chelator that can bind to radionuclides to prepare radionuclide conjugates (RDCs). NH2-NODAGA can react with diethyl squarate in 0.5M phosphate buffer (room temperature, 2 h, pH 7-7.5) to obtain NODAGA.SA. NODAGA.SA can target L-lysine urea-L-glutamate (KuE), which is a key structure of prostate-specific membrane antigen (PSMA). NODAGA.SA.KuE can bind [68]Ga and can be used for PET examination of NMRInu/nu nude mice bearing LNCaP tumors.
    NH2-NODAGA
  • HY-121659

    Others Cancer
    DCFBC is a prostate-specific membrane antigen (PSMA) inhibitor for small animal positron emission tomography (PET) imaging. [18F]DCFBC was prepared by reacting fluorine-18 labeled phenyl bromide with the precursor (S)-2-[3-[(R)-1-carboxy-2-thiolethyl]urea]-glutaric acid in ammonia-saturated methanol at 60°C for 10 min and then purified by C-18 reversed-phase HPLC. [18F]DCFBC was injected via the tail vein in severe combined immunodeficient mice for in vitro biodistribution or imaging. For in vitro biodistribution studies, mice were sacrificed at 5, 15, 30, 60, and 120 min after injection, and tumors, blood, and major organs were collected, weighed, and radioactivity was counted. Imaging was performed using a GE eXploreVista small animal PET scanner, collecting 12 consecutive 10-min frames. Results showed that the radiochemical yield of [18F]DCFBC averaged 16±6% (n=8) from 4-[18F]fluorophenyl bromide. Specific radioactivity ranged from 13 to 133 GBq/Amol (350-3600 Curie/mmol) with an average of 52 GBq/Amol (1392 Curie/mmol; n=6). Biodistribution and imaging studies showed high uptake of [18F]DCFBC in PIP tumors and almost no uptake in FLU tumors. High radiopharmaceutical uptake was also seen in the kidney and bladder; however, radioactivity washout from these organs was faster than from the PIP tumors. Maximum PIP tumor uptake was reached at 60 min post-injection at 8.16±2.55% injected dose/g and decreased to 4.69±0.89 at 120 min post-injection. The PIP tumor-to-muscle ratio was 20 at 120 min post-injection. Based on mouse biodistribution, the dose-limiting organ was the kidney (estimated human absorbed dose: 0.05 mGy/MBq; 0.2 rad/mCi). Conclusions: [18F]DCFBC localizes specifically to PSMA+ expressing tumors in mice and is suitable for small animal PET imaging. This novel radiopharmaceutical is an attractive candidate for further study in PET imaging of prostate cancer.
    DCFBC

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