Cancer Metabolism and Metastasis

Metabolic abnormalities are a major feature of cancer, such as increased substance anabolic pathways and aerobic glycolysis. Cancer metabolism shows flexibility and plasticity, which are crucial for the survival and growth of cancer cells. Cancer metastasis is completed in five steps i.e. invasion, dissemination, circulating tumor cells, colonization, and secondary tumor formation. Recently, metabolic adaptation mechanism of cancer metastasis has been proposed to reveal the extensive relationship between cancer metabolism and cancer metastasis. Metastasizing cancer cells selectively and dynamically adapt their metabolism during the complex multistep cascade.

Many nutrients can promote metabolite plasticity during metastasis. For example, lactic acid and pyruvate are the nutrients that cells can directly absorb from the environment; many cancer cells take up glutamine, which contributes to non-essential amino acid as well as nucleotide synthesis through nitrogen or carbon metabolism. Inhibiting the function of key enzymes in metabolic pathways can in turn inhibit the proliferation of cancer cells. For example, lactate dehydrogenase A or B (LDH-A or -B) knockdown can inhibit breast cancer cell motility in vitro. Oncogenic signaling pathways, such as Myc, phosphoinositide 3-kinase (PI3K)/AKT pathway, MAPK/ERK pathway, LKB1/AMPK pathway and Hippo pathways, mediate metabolic gene expression and increase metabolic enzyme activities.

Cancer Metabolism and Metastasis Related Products (46570):

Cat. No.	Product Name	CAS No.	Purity	Chemical Structure

HY-113627

Undecylprodigiosin	52340-48-4
Undecylprodigiosin, a member of the family of prodiginines, is a potent antibiotic. Undecylprodigiosin can selectively induce apoptosis in human breast carcinoma cells independent of p53. Undecylprodigiosin shows immunosuppressive, anticancer properties and antimicrobial activities.

HY-RI04414A

rno-miR-3577 antagomir
rno-miR-3577 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.

HY-RI04409

rno-miR-3573-3p inhibitor
rno-miR-3573-3p 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.

HY-RI03180

mmu-miR-466h-5p inhibitor
mmu-miR-466h-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.

HY-10638

AP23464	845895-51-4
AP23464 is an ATP-based inhibitor for Kit, that inhibits the phosphorylation of Kit wildtype and mutants, with IC₅₀ of 5-85 nM. AP23464 inhibits the proliferation of Kit mutated cells (IC₅₀ is 3-20 nM), arrests the cell cycle at G0/G1 phase, and induces apoptosis in Kit mutated cells.

HY-R04183

mmu-miR-880-3p mimic
mmu-miR-880-3p mimics are small, chemically synthesized double-stranded RNAs that mimic endogenous miRNAs and enable miRNA functional analysis by up-regulation of miRNA activity.

HY-RI00430

hsa-miR-210-5p inhibitor
hsa-miR-210-5p 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.

HY-RI04308A

rno-miR-217-5p antagomir
rno-miR-217-5p 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.

HY-R01203A

hsa-miR-4653-3p agomir
hsa-miR-4653-3p agomirs are chemically-modified double-strand miRNA mimics with modified mature miRNA strand: 2 phosphorothioates at the 5' end, 4 phosphorothioates at the 3' end, 3' end cholesterol group, and full-length nucleotide 2'-methoxy modification. They are designed to mimic endogenous miRNAs and recommended for miRNA functional studies. Compared with miRNA mimics, they exhibits enhanced cellular uptake, stability and regulatory activity in vivo.

HY-R02073

hsa-miR-6757-5p mimic
hsa-miR-6757-5p mimics are small, chemically synthesized double-stranded RNAs that mimic endogenous miRNAs and enable miRNA functional analysis by up-regulation of miRNA activity.

HY-115937

c-Met-IN-9	2760326-29-0
c-Met-IN-9, a 4-phenoxypyridine derivative, is a c-Met kinas inhibitor with an IC₅₀ of 12 nM. c-Met-IN-9 induces cells apoptosis, and has antitumor activities.

HY-RI01794A

hsa-miR-573 antagomir
hsa-miR-573 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.

HY-R01088

hsa-miR-4481 mimic
hsa-miR-4481 mimics are small, chemically synthesized double-stranded RNAs that mimic endogenous miRNAs and enable miRNA functional analysis by up-regulation of miRNA activity.

HY-162247

MDM2-IN-26	1818393-11-1
MDM2-IN-26 (compound A3) is an MDM2 inhibitor that can activate the tumor suppressor function of p53 by blocking the interaction between MDM2 and p53 (MDM2 is the main negative regulator of p53). MDM2-IN-26 can be used for cancer research.

HY-RI04084A

mmu-miR-7667-5p antagomir
mmu-miR-7667-5p 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.

HY-R02155

hsa-miR-6795-5p mimic
hsa-miR-6795-5p mimics are small, chemically synthesized double-stranded RNAs that mimic endogenous miRNAs and enable miRNA functional analysis by up-regulation of miRNA activity.

HY-RI03392A

mmu-miR-6386 antagomir
mmu-miR-6386 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.

HY-R00597A

hsa-miR-3150b-5p agomir
hsa-miR-3150b-5p agomirs are chemically-modified double-strand miRNA mimics with modified mature miRNA strand: 2 phosphorothioates at the 5' end, 4 phosphorothioates at the 3' end, 3' end cholesterol group, and full-length nucleotide 2'-methoxy modification. They are designed to mimic endogenous miRNAs and recommended for miRNA functional studies. Compared with miRNA mimics, they exhibits enhanced cellular uptake, stability and regulatory activity in vivo.

HY-RI00548

hsa-miR-3117-5p inhibitor
hsa-miR-3117-5p 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.

HY-RI03152

mmu-miR-450b-3p inhibitor
mmu-miR-450b-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.

Name
Email *

	Sorry, but the email address you supplied was invalid.