HDAC
Histone deacetylases
HDAC Isoform Specific Products
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HDAC Related Products (867)
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Antibodies (16)
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HDAC Signaling Pathway
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HDAC Isoform Comparison
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HDAC6-IN-6
0 ImagesCat. No.: HY-146679CAS No.: 2413603-10-6HDAC6-IN-6 (compound 6a) is a potent and BBB-penetrated HDAC6 inhibitor, with an IC50 of 0.025 μM. HDAC6-IN-6 exhibits strong inhibitory activity against Aβ1-42 self-aggregation and AChE, with IC50 values of 3.0 and 0.72 μM. HDAC6-IN-6 can enhance neurite outgrowth without significant neurotoxicity. -
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SP-2-225
0 ImagesCat. No.: HY-155176CAS No.: 2364448-93-9SP-2-225 is a selective HDAC6 inhibitor. SP-2-225 enhance the production of cancer-associated antigens and macrophage antigen cross-presentation to T cells. SP-2-225 reduces the tumor volume in a syngeneic SM1 melanoma model. -
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Bocodepsin hydrochloride
0 ImagesCat. No.: HY-156602ACAS No.: 1834513-66-4Synonyms: OKI-179 hydrochlorideBocodepsin hydrochloride (OKI-179) is an orally active and selective HDAC inhibitor, with antitumor activity. Bocodepsin hydrochloride can be used for suppression on solid tumor and hematologic malignancies. -
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Valproic acid-d7 sodium
0 ImagesCat. No.: HY-10585ASCAS No.: 1189994-89-5Synonyms: Sodium Valproate-d7; VPA-d7 sodium; 2-Propylpentanoic acid-d7 sodiumValproic acid-d7 (sodium) is the deuterium labeled Valproic acid (sodium salt). Valproic acid sodium salt (Sodium Valproate) is an HDAC inhibitor, with IC50 in the range of 0.5 and 2 mM, also inhibits HDAC1 (IC50, 400 μM), and induces proteasomal degradation of HDAC2. Valproic acid sodium salt activates Notch1 signaling and inhibits proliferation in small cell lung cancer (SCLC) cells. Valproic acid sodium salt is used in the treatment of epilepsy, bipolar disorder and prevention of migraine headaches. -
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HDAC-IN-5
0 ImagesCat. No.: HY-18362CAS No.: 1314890-51-1HDAC-IN-5 is a histone deacetylase (HDAC) inhibitor. -
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HDAC1-IN-13
0 ImagesCat. No.: HY-183150CAS No.: 3053289-22-5HDAC1-IN-13 is an orally active HDAC1 inhibitor with IC50 values of 91, 185, 170, and 280 nM against HDAC1, HDAC2, HDAC3, and HDAC10, respectively, and shows no activity against HDAC4, HDAC5, HDAC6, HDAC7, and HDAC9. HDAC1-IN-13 induces extrinsic apoptosis by activating the caspase-8 pathway and triggers G0/G1 cell cycle arrest. HDAC1-IN-13 can be used for the research of leukemia. -
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- PB118
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Hsp110/HDAC6-IN-1
0 ImagesCat. No.: HY-183985Hsp110/HDAC6-IN-1 is an orally active Hsp110/HDAC6 dual inhibitor. Hsp110/HDAC6-IN-1 disrupts Hsp110-STAT3 protein-protein interaction, suppresses HDAC6 enzymatic activity, and suppresses STAT3 signaling pathway. Hsp110/HDAC6-IN-1 inhibits abnormal proliferation and migration of human pulmonary arterial endothelial cells, and suppresses pulmonary vascular remodeling in rats. Hsp110/HDAC6-IN-1 can be used for the research of pulmonary arterial hypertension. -
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JPS035
0 ImagesCat. No.: HY-145818CAS No.: 2669785-84-4 -
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- HDAC6-IN-56
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- HDAC6-IN-17
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- HDAC6 ligand-5
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FLT3/HDAC-IN-1
0 ImagesCat. No.: HY-169076FLT3/HDAC-IN-1 is a dual inhibitor of FLT3/HDAC, with IC50 values of 30.4, 52.4, and 14.7 nM for FLT3, HDAC1, and HDAC3, respectively. FLT3/HDAC-IN-1 can induce apoptosis in MV-4-11 cells and has anti-proliferative effects on FLT3 mutant-transformed BaF3 cells. FLT3/HDAC-IN-1 is being researched for its potential in treating hard-to-treat solid tumors and hematological malignancies. -
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- (S)-Trichostatin A
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- HDAC-IN-72
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HDAC6/8/BRPF1-IN-1
0 ImagesCat. No.: HY-151364CAS No.: 2484255-65-2HDAC6/8/BRPF1-IN-1 is a dual inhibitor of both HDAC6/8 and the bromodomain and PHD finger containing protein 1 (BRPF1). HDAC6/8/BRPF1-IN-1 has inhibitory activity for HDAC1, HDAC6 and HDAC8 with IC50 values of 797 nM, 344 nM and 908 nM, respectively. HDAC6/8/BRPF1-IN-1 has inhibitory activity for BRPF1 with an Kd value of 175.2 nM. HDAC6/8/BRPF1-IN-1 can be used for the research of cancer. -
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- HDAC6-IN-24
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HDAC6 ligand-9
0 ImagesCat. No.: HY-184550CAS No.: 1206627-01-1HDAC6 ligand-9 (Compound 1a) is a ligands for target protein for PROTAC. HDAC6 ligand-9 can be used to synthesize PROTAC HDAC6 degrader-4 (HY-123971). -
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HDAC6-IN-53
0 ImagesCat. No.: HY-173184CAS No.: 3081880-03-4HDAC6-IN-53 (Compound W28) is an inhibitor targeting histone deacetylase 6 (HDAC6) with an IC50 of 19.65 nM. HDAC6-IN-53 exerts the activity of inhibiting the phenotype of idiopathic pulmonary fibrosis (IPF) by suppressing the collagen expression induced by TGF-β1, and it has demonstrated a good therapeutic effect in a mouse model of pulmonary fibrosis induced by Bleomycin (HY-17565A). HDAC6-IN-53 can be used in the research of idiopathic pulmonary fibrosis and other related pulmonary fibrosis diseases. -
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JPS016
0 ImagesCat. No.: HY-145816CAS No.: 2669785-77-5JPS016 is a class I histone deacetylase (HDAC) PROTAC inhibitor. JPS016 recruits the VHL E3 ligase (Ligands for E3 Ligase) to mediate the ubiquitination and proteasomal degradation of HDAC1, HDAC2 and HDAC3. JPS016 reduces the viability of colon cancer cells and induces Apoptosis. JPS016 activates the PINK1/Parkin mitochondrial Autophagy pathway, enhances cardiomyocyte viability, alleviates mitochondrial damage, and reduces mitochondrial ROS production in cells. JPS016 is applicable to research related to colon cancer and sepsis cardiomyopathy. -
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TCR, GPCR and HDAC II interaction: Diverse agonists act through G-protein-coupled receptors (GPCRs) to activate the PKC-PKD axis, CaMK, Rho, or MHC binding to antigens stimulates TCR to activate PKD, leading to phosphorylation of class II HDACs. Phospho-HDACs dissociate from MEF2, bind 14-3-3, and are exported to the cytoplasm through a CRM1-dependent mechanism. CRM1 is inhibited by leptomycin B (LMB). Release of MEF2 from class II HDACs allows p300 to dock on MEF2 and stimulate gene expression. Dephosphorylation of class II HDACs in the cytoplasm enables reentry into the nucleus[1].
TLR: TLR signaling is initiated by ligand binding to receptors. The recruitment of TLR domain-containing adaptor protein MyD88 is repressed by HDAC6, whereas NF-κB and MTA-1 can be negatively regulated by HDAC1/2/3 and HDAC2, respectively. Acetylation by HATs enhance MKP-1 which inhibits p38-mediated inflammatory responses, while HDAC1/2/3 inhibits MKP-1 activity. HDAC1 and HDAC8 repress, whereas HDAC6 promotes, IRF function in response to viral challenge. HDAC11 inhibits IL-10 expression and HDAC1 and HDAC2 represses IFNγ-dependent activation of the CIITA transcription factor, thus affecting antigen presentation[2][3].
IRNAR: IFN-α/β induce activation of the type I IFN receptor and then bring the receptor-associated JAKs into proximity. JAK adds phosphates to the receptor. STATs bind to the phosphates and then phosphorylated by JAKs to form a dimer, leading to nuclear translocation and gene expression. HDACs positively regulate STATs and PZLF to promote antiviral responses and IFN-induced gene expression[2][3].
Cell cycle: In G1 phase, HDAC, Retinoblastoma protein (RB), E2F and polypeptide (DP) form a repressor complex. HDAC acts on surrounding chromatin, causing it to adopt a closed chromatin conformation, and transcription is repressed. Prior to the G1-S transition, phosphorylation of RB by CDKs dissociates the repressor complex. Transcription factors (TFs) gain access to their binding sites and, together with the now unmasked E2F activation domain. E2F is then free to activate transcription by contacting basal factors or by contacting histone acetyltransferases, such as CBP, that can alter chromatin structure[4].
The function of non-histone proteins is also regulated by HATs/HDACs. p53: HDAC1 impairs the function of p53. p53 is acetylated under conditions of stress or HDAC inhibition by its cofactor CREB binding protein (CBP) and the transcription of genes involved in differentiation is activated. HSP90: HSP90 is a chaperone that complexes with other chaperones, such as p23, to maintain correct conformational folding of its client proteins. HDAC6 deacetylates HSP90. Inhibition of HDAC6 would result in hyperacetylated HSP90, which would be unable to interact with its co-chaperones and properly lead to misfolded client proteins being targeted for degradation via the ubiquitin-proteasome system[5][6].
Reference:
[1]. Vega RB, et al. Protein kinases C and D mediate agonist-dependent cardiac hypertrophy through nuclear export of histone deacetylase 5.Mol Cell Biol. 2004 Oct;24(19):8374-85.
[2]. Shakespear MR, et al. Histone deacetylases as regulators of inflammation and immunity. Trends Immunol. 2011 Jul;32(7):335-43.
[3]. Suliman BA, et al. HDACi: molecular mechanisms and therapeutic implications in the innate immune system.Immunol Cell Biol. 2012 Jan;90(1):23-32.
[4]. Brehm A, et al. Retinoblastoma protein meets chromatin.Trends Biochem Sci. 1999 Apr;24(4):142-5.
[5]. Butler R, et al. Histone deacetylase inhibitors as therapeutics for polyglutamine disorders.Nat Rev Neurosci. 2006 Oct;7(10):784-96
[6]. Minucci S, et al. Histone deacetylase inhibitors and the promise of epigenetic (and more) treatments for cancer.Nat Rev Cancer. 2006 Jan;6(1):38-51.
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