2. Cancer
  3. Cancer Targeted Therapy

Cancer Targeted Therapy

Cancer targeted therapy is the foundation of precision medicine; it uses drugs or other substances to target specific genes and proteins that control cancer cells’ growth, division and spreading. Compared to traditional chemotherapy drugs, targeted-drugs can specifically act on cancer cells with high efficacy without damaging normal cells. Drugs used in cancer targeted therapy mainly includes small molecules and macromolecules (e.g., monoclonal antibodies), which can target cancer cells and constituents in the tumor microenvironment to activate the immune system. Anti-angiogenesis drugs, such as those targeting vascular endothelial growth factor (VEGF), epidermal growth factor receptor (EGFR), transforming growth factor (TGF)-α, TGF-β, Tumor necrosis factor (TNF)-α, and platelet-derived endothelial growth factor (PDGFR) inhibit the proliferation and metastasis of cancer cells. In recent years, the proportion of antibody drugs in cancer treatment has gradually become prominent. Antibody-drug conjugates (ADCs) are a new type of targeted drugs that are composed of monoclonal antibody, cytotoxic drug and linker. ADCs can deliver drugs to tumor cells and minimize the toxicity to normal tissues. Proteolysis-targeting chimera (PROTAC) is a useful technology for targeted protein degradation. PROTAC exploits the ubiquitin-proteasome system and forms a ternary complex with a hijacked E3 ubiquitin ligase and target protein, leading to polyubiquitination and degradation of the target protein.

Targeted therapy is a useful strategy in treatment of cancer either alone or in combination with standard chemotherapy. At present, targeted therapy has proved significant clinical success in the treatment of many types of cancer, including breast cancer, colorectal cancer, leukemia, ovarian cancer and lung cancer.

Cancer Targeted Therapy Related Products (35210):

Cat. No. Product Name CAS No. Purity Chemical Structure
  • HY-RI00591
    hsa-miR-3147 inhibitor
    hsa-miR-3147 inhibitors are chemically-modified oligonucleotides that hybridize with mature miRNAs. The miRNA inhibitors have full-length nucleotide 2'-methoxy modification. The miRNA inhibitors strongly compete with mature miRNAs to prevent the complementary pairing of miRNAs and their target genes, thereby inhibiting miRNAs from functioning.
    hsa-miR-3147 inhibitor
  • HY-161747
    Tubulin inhibitor 46
    Tubulin inhibitor 46 (Compound 21) is a potent tubulin assembly inhibitor. Tubulin inhibitor 46 has antiproliferative activities, with GI50 values of 0.0095-33 μM for cancer and non-cancerous cells. Tubulin inhibitor 46 can be used for the reserch of cancer.
    Tubulin inhibitor 46
  • HY-140514
    NH-bis(PEG2-C2-acid) 1919044-99-7
    NH-bis(PEG2-C2-acid) is a PEG-based PROTAC linker that can be used in the synthesis of PROTACs.
    NH-bis(PEG2-C2-acid)
  • HY-RI02003A
    hsa-miR-6720-3p antagomir
    hsa-miR-6720-3p antagomirs are chemically-modified oligonucleotides that hybridize with mature miRNAs. The miRNA antagomirs have 2 phosphorothioates at the 5' end, 4 phosphorothioates at the 3' end, 1 cholesterol group at the 3' end, and full-length nucleotide 2'-methoxy modification. The miRNA antagomirs strongly compete with mature miRNAs to prevent the complementary pairing of miRNAs and their target genes, thereby inhibiting miRNAs from functioning. Stability of miRNA antagomirs appears to be significantly higher than miRNA inhibitors, they exhibits enhanced cellular uptake, stability and regulatory activity in vivo.
    hsa-miR-6720-3p antagomir
  • HY-148246
    MU1700
    MU1700 is an orally active and potent ALK1/2 inhibitor with IC50s of 13 nM and 6 nM, respectively. MU1700 shows cell membrane permeability and high brain permeability.
    MU1700
  • HY-RI00712A
    hsa-miR-346 antagomir
    hsa-miR-346 antagomirs are chemically-modified oligonucleotides that hybridize with mature miRNAs. The miRNA antagomirs have 2 phosphorothioates at the 5' end, 4 phosphorothioates at the 3' end, 1 cholesterol group at the 3' end, and full-length nucleotide 2'-methoxy modification. The miRNA antagomirs strongly compete with mature miRNAs to prevent the complementary pairing of miRNAs and their target genes, thereby inhibiting miRNAs from functioning. Stability of miRNA antagomirs appears to be significantly higher than miRNA inhibitors, they exhibits enhanced cellular uptake, stability and regulatory activity in vivo.
    hsa-miR-346 antagomir
  • HY-154458
    2’-Deoxy-N6-(3-methoxybenzyl)adenosine 1947400-98-7
    2’-Deoxy-N6-(3-methoxybenzyl)adenosine is a purine nucleoside analog. Purine nucleoside analogs have broad antitumor activity targeting indolent lymphoid malignancies. Anticancer mechanisms in this process rely on inhibition of DNA synthesis, induction of apoptosis, etc.
    2’-Deoxy-N6-(3-methoxybenzyl)adenosine
  • HY-RI02908A
    mmu-miR-3061-5p antagomir
    mmu-miR-3061-5p antagomirs are chemically-modified oligonucleotides that hybridize with mature miRNAs. The miRNA antagomirs have 2 phosphorothioates at the 5' end, 4 phosphorothioates at the 3' end, 1 cholesterol group at the 3' end, and full-length nucleotide 2'-methoxy modification. The miRNA antagomirs strongly compete with mature miRNAs to prevent the complementary pairing of miRNAs and their target genes, thereby inhibiting miRNAs from functioning. Stability of miRNA antagomirs appears to be significantly higher than miRNA inhibitors, they exhibits enhanced cellular uptake, stability and regulatory activity in vivo.
    mmu-miR-3061-5p antagomir
  • HY-RI00421A
    hsa-miR-205-5p antagomir
    hsa-miR-205-5p antagomirs are chemically-modified oligonucleotides that hybridize with mature miRNAs. The miRNA antagomirs have 2 phosphorothioates at the 5' end, 4 phosphorothioates at the 3' end, 1 cholesterol group at the 3' end, and full-length nucleotide 2'-methoxy modification. The miRNA antagomirs strongly compete with mature miRNAs to prevent the complementary pairing of miRNAs and their target genes, thereby inhibiting miRNAs from functioning. Stability of miRNA antagomirs appears to be significantly higher than miRNA inhibitors, they exhibits enhanced cellular uptake, stability and regulatory activity in vivo.
    hsa-miR-205-5p antagomir
  • HY-RI01033
    hsa-miR-4433a-5p inhibitor
    hsa-miR-4433a-5p inhibitors are chemically-modified oligonucleotides that hybridize with mature miRNAs. The miRNA inhibitors have full-length nucleotide 2'-methoxy modification. The miRNA inhibitors strongly compete with mature miRNAs to prevent the complementary pairing of miRNAs and their target genes, thereby inhibiting miRNAs from functioning.
    hsa-miR-4433a-5p inhibitor
  • HY-140359
    m-PEG7-Tos 79622-11-0
    m-PEG7-Tos is a PEG-based PROTAC linker that can be used in the synthesis of PROTACs.
    m-PEG7-Tos
  • HY-N13188
    2'-Rhamnoechinacoside 1422390-59-7
    2'-Rhamnoechinacoside (Michelioside A), a compound of phenylethanoid glycosides, is a α-glucosidase inhibitor with anti-tumor activity, which is derived from Phlomis stewartii. 2'-Rhamnoechinacoside can be used for research of UV-absorbing and cancers.
    2'-Rhamnoechinacoside
  • HY-RI04582A
    rno-miR-802-5p antagomir
    rno-miR-802-5p antagomirs are chemically-modified oligonucleotides that hybridize with mature miRNAs. The miRNA antagomirs have 2 phosphorothioates at the 5' end, 4 phosphorothioates at the 3' end, 1 cholesterol group at the 3' end, and full-length nucleotide 2'-methoxy modification. The miRNA antagomirs strongly compete with mature miRNAs to prevent the complementary pairing of miRNAs and their target genes, thereby inhibiting miRNAs from functioning. Stability of miRNA antagomirs appears to be significantly higher than miRNA inhibitors, they exhibits enhanced cellular uptake, stability and regulatory activity in vivo.
    rno-miR-802-5p antagomir
  • HY-143422A
    (R)-MALT1-IN-3 2504229-61-0
    (R)-MALT1-IN-3 (compound 121) is a potent MALT1 protease inhibitor with an IC50 of 20 nM. (R)-MALT1-IN-3 has IC50 of 60 nM, 40 nM for human IL6/IL10 in OCI-LY3 cells, respectively.
    (R)-MALT1-IN-3
  • HY-133585
    Bis-SS-C3-sulfo-NHS ester 98604-89-8
    Bis-SS-C3-sulfo-NHS ester is a cleavable ADC linker used in the synthesis of antibody-drug conjugates (ADCs).
    Bis-SS-C3-sulfo-NHS ester
  • HY-155233
    Steroid sulfatase-IN-5
    Steroid sulfatase-IN-5 (compound 10b) is a steroid sulfatase (STS) inhibitor (IC50: 0.32 nM). Steroid sulfatase-IN-5 inhibits T-47D cell proliferation with an IC50 of 35.7 μM. Steroid sulfatase-IN-5 can be used for research of breast cancer.
    Steroid sulfatase-IN-5
  • HY-147602
    CDK7-IN-17 2765676-60-4
    CDK7-IN-17 is a potent inhibitor of CDK7. CDK7-IN-17 is a pyrimidinyl derivative compound. CDK7-IN-17 has the potential for the research of various cancers, especially the cancer with transcriptional dysregulation (extracted from patent CN114249712A, compound 1).
    CDK7-IN-17
  • HY-RI02630
    mmu-miR-12203-5p inhibitor
    mmu-miR-12203-5p inhibitors are chemically-modified oligonucleotides that hybridize with mature miRNAs. The miRNA inhibitors have full-length nucleotide 2'-methoxy modification. The miRNA inhibitors strongly compete with mature miRNAs to prevent the complementary pairing of miRNAs and their target genes, thereby inhibiting miRNAs from functioning.
    mmu-miR-12203-5p inhibitor
  • HY-RI00617
    hsa-miR-3162-3p inhibitor
    hsa-miR-3162-3p inhibitors are chemically-modified oligonucleotides that hybridize with mature miRNAs. The miRNA inhibitors have full-length nucleotide 2'-methoxy modification. The miRNA inhibitors strongly compete with mature miRNAs to prevent the complementary pairing of miRNAs and their target genes, thereby inhibiting miRNAs from functioning.
    hsa-miR-3162-3p inhibitor
  • HY-176064
    HDAC6-IN-58
    HDAC6-IN-58 (compound 24c) is a selective HDAC6 inhibitor with IC50 values of 9.5 nM and 7374.5 nM for HDAC6 and HDAC1, respectively. HDAC6-IN-58 increases tubulin acetylation, exerts antiproliferative effects, and induces autophagy.
    HDAC6-IN-58