2. Signaling Pathways
  3. PI3K/Akt/mTOR
  4. PI3K

PI3K

Phosphoinositide 3-kinase

PI3K

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PI3K (Phosphoinositide 3-kinase), via phosphorylation of the inositol lipid phosphatidylinositol 4,5-bisphosphate (PI(4,5)P2), forms the second messenger molecule phosphatidylinositol (3,4,5)-trisphosphate (PI(3,4,5)P3) which recruits and activates pleckstrin homology domain containing proteins, leading to downstream signalling events crucial for proliferation, survival and migration. Class I PI3K enzymes consist of four distinct catalytic isoforms, PI3Kα, PI3Kβ, PI3Kδ and PI3Kγ.

There are three major classes of PI3K enzymes, being class IA widely associated to cancer. Class IA PI3K are heterodimeric lipid kinases composed of a catalytic subunit (p110α, p110β, or p110δ; encoded by PIK3CA, PIK3CB, and PIK3CD genes, respectively) and a regulatory subunit (p85).

The PI3K pathway plays an important role in many biological processes, including cell cycle progression, cell growth, survival, actin rearrangement and migration, and intracellular vesicular transport.

PI3K Isoform Specific Products:

PI3K Isoform Comparison
Cat. No. Product Name Effect Purity Chemical Structure
  • HY-146223
    AZD4625
    		Inhibitor 99.52%
    AZD4625 is an orally active, selective irreversible, covalent allosteric GTPase KRASG12C inhibitor with an IC50 of 3 nM. AZD4625 can inhibit the MAPK pathway (with decreased pCRAF, pMEK, and pERK) and the PI3K pathway (with decreased pAKT and pS6), and induce cell apoptosis. AZD4625 has no binding and inhibition of wild-type RAS or isoforms carrying non-KRASG12C mutations. AZD4625 can be used for the study of KRASG12C mutant non-small cell lung cancer.
    AZD4625
  • HY-18085S1
    Quercetin-d3
    		Inhibitor
    Quercetin-d3 is the deuterium labeled Quercetin. Quercetin, a natural flavonoid, is a stimulator of recombinant SIRT1 and also a PI3K inhibitor with IC50 of 2.4 μM, 3.0 μM and 5.4 μM for PI3K γ, PI3K δ and PI3K β, respectively.
    Quercetin-d<sub>3</sub>
  • HY-N6996R
    Methyl Eugenol (Standard)
    		Inhibitor
    Methyl Eugenol (Standard) is the analytical standard of Methyl Eugenol. This product is intended for research and analytical applications. Methyl Eugenol is a bait that has oral activity against oriental fruit fly (Hendel).Methyl Eugenol has anti-cancer and anti-inflammatory activities. Methyl Eugenol can induce Autophagy in cells. Methyl Eugenol can be used in the study of intestinal ischemia/reperfusion injury.
    Methyl Eugenol (Standard)
  • HY-125847
    Salvianolic acid F
    		Inhibitor 99.30%
    Salvianolic acid F is a KRAS inhibitor, especially for KRAS G12D. Salvianolic acid F inhibits NF-kB, MMP-9, and NO simultaneously. Salvianolic acid F inhibits cancer cell growth, invasion, and migration and induces apoptosis via the EP300/PI3K/AKT pathway in vitro. Salvianolic acid F inhibits the growth of KRAS-dependent lung cancer cells via the PI3K/AKT signaling pathway in vivo. Salvianolic acid F can be used in the research of various cancers, including KRAS G12D-driven non-small cell lung cancer (NSCLC) and ovarian cancer.
    Salvianolic acid F
  • HY-N1399
    Androsin
    		Activator 98.82%
    Androsin is an active compound isolated from Picrorhiza Kurroa Royle ex Benth. Androsin activates AMPKα/PI3K/Beclin1/LC3 signaling pathway, inhibits SREBP1c/FASN signaling pathway. Androsin can be used in research of asthma and non-alcoholic fatty liver disease (NAFLD). Androsin is orally active.
    Androsin
  • HY-128393
    Trilinolein
    		Inhibitor ≥98.0%
    Trilinolein is an orally active triglyceride that inhibits the PI3K/Akt, Ras/MEK/ERK signaling pathways, and MMP-2. Trilinolein can reduce oxidative stress, induce apoptosis, and inhibit cell migration. Trilinolein can be used in the research fields of cardiovascular disease, cerebrovascular disease (such as cerebral ischemia), and non-small cell lung cancer.
    Trilinolein
  • HY-15271
    WYE-687
    		Inhibitor 98.05%
    WYE-687 is an ATP-competitive mTOR inhibitor with an IC50 of 7 nM. WYE-687 concurrently inhibits activation of mTORC1 and mTORC2. WYE-687 also inhibits PI3Kα and PI3Kγ with IC50s of 81 nM and 3.11 μM, respectively.
    WYE-687
  • HY-128333
    PI3K/mTOR Inhibitor-4
    		Inhibitor
    PI3K/mTOR Inhibitor-4 is an orally active pan-class I PI3K/mTOR inhibitor. PI3K/mTOR Inhibitor-4 has enzymatic inhibition activity for PI3Kα, PI3Kγ, PI3Kδ and mTOR with IC50 values of 0.63 nM, 22 nM, 9.2 nM and 13.85 nM, respectively. PI3K/mTOR Inhibitor-4 can be used for the research of cancer.
    PI3K/mTOR Inhibitor-4
  • HY-N3307
    (+)-Medioresinol
    		Agonist 98.88%
    (+)-Medioresinol is a furofuran-type lignan with antifungal and antibacterial properties. (+)-Medioresinol synergizes with antibiotics to exert antimicrobial and antibiofilm effects. (+)-Medioresinol induces intracellular ROS accumulation and mitochondrial-mediated apoptosis in Candida albicans. (+)-Medioresinol inhibits LPS (HY-D1056)-stimulated IL-12p40 production. (+)-Medioresinol is a PGC-1α activator that protects against endothelial cell pyroptosis in ischemic stroke via the PPARα-GOT1 axis. (+)-Medioresinol can be used in research on fungal and bacterial infection, inflammation, and ischemic stroke.
    (+)-Medioresinol
  • HY-145526
    Hydroxy celecoxib
    		Activator 98.71%
    Hydroxy celecoxib is a Celecoxib (HY-14398) derivative and a PI3K/Akt signalling activator which promotes epithelium repair. Hydroxy celecoxib can be utilized in asthma research.
    Hydroxy celecoxib
  • HY-12340
    ETP-46321
    		Inhibitor 99.34%
    ETP-46321 is a potent and orally bioavailable PI3Kα and PI3Kδ inhibitor with Kiapps of 2.3 and 14.2 nM, respectively.
    ETP-46321
  • HY-101776A
    Desmethyl-VS-5584 hydrochloride
    		Inhibitor 98.63%
    Desmethyl-VS-5584 hydrochloride is a dimethyl analog of VS-5584, a potent and selective mTOR/< with a pyridine[2,3-d]pyrimidine structure. b>PI3KDual inhibitor.
    Desmethyl-VS-5584 hydrochloride
  • HY-12481A
    SAR405 R enantiomer
    		Control 99.94%
    SAR405 R enantiomer is the less active enantiomer of SAR405. SAR405 is a PIK3C3/Vps34 inhibitor.
    SAR405 R enantiomer
  • HY-114428
    P110δ-IN-1
    		Inhibitor 98.44%
    P110δ-IN-1 is a potent and selective inhibitor of P110δ extracted from patent WO 2014055647 A1, with an IC50 of 8.4 nM.
    P110δ-IN-1
  • HY-132231
    FD223
    		Inhibitor 98.05%
    FD223 is a potent and selective phosphoinositide 3-kinase delta (PI3Kδ) inhibitor. FD223 displays high potency (IC50=1 nM) and good selectivity over other isoforms (IC50s of 51 nM, 29 nM and 37 nM, respectively for α, β and γ). FD223 exhibits efficient inhibition of the proliferation of acute myeloid leukemia (AML) cell lines by suppressing p-AKT Ser473 thus causing G1 phase arrest during the cell cycle. FD223 has potential for the research of leukemia such as AML.
    FD223
  • HY-124036
    DS-7423
    		Inhibitor 99.83%
    DS-7423 is a dual PI3K and mTOR inhibitor, with IC50 values of 15.6 nM, 34.9 nM for PI3Kα and mTOR, respectively. DS-7423 possesses anti-tumor activity.
    DS-7423
  • HY-112608
    CHMFL-PI3KD-317
    		Inhibitor 98.04%
    CHMFL-PI3KD-317 is a highly potent, selective and orally active PI3Kδ inhibitor, with an IC50 of 6 nM, and exhibits over 10-1500 fold selectivity over other class I, II and III PIKK family isoforms, such as PI3Kα (IC50, 62.6 nM), PI3Kβ (IC50, 284 nM), PI3Kγ (IC50, 202.7 nM), PIK3C2A (IC50, >10000 nM), PIK3C2B (IC50, 882.3 nM), VPS34 (IC50, 1801.7 nM), PI4KIIIA (IC50, 574.1 nM) and PI4KIIIB (IC50, 300.2 nM). CHMFL-PI3KD-317 inhibits PI3Kδ-mediated Akt T308 phosphorylation in Raji cells, with an EC50 of 4.3 nM. CHMFL-PI3KD-317 has antiproliferative effects on cancer cells.
    CHMFL-PI3KD-317
  • HY-N2590
    Lupenone
    		99.74%
    Lupenone is an orally active lupine-type triterpenoid that can be isolated from Musa basjoo. Lupenone Lupenone plays a role through the PI3K/Akt/mTOR and NF-κB signaling pathways. Lupenone has anti-inflammatory, antiviral, antidiabetic and anticancer activities.
    Lupenone
  • HY-N2911
    Auriculasin
    		Inhibitor 98.58%
    Auriculasin is an anticancer agent that inhibits VEGFR2, PI3K/AKT/mTOR, MAPK. Auriculasin can inhibit cell proliferation, induce cell apoptosis, and inhibit angiogenesis, and promotes mitochondrial oxidative stress and ferroptosis. Auriculasin is also active at the cannabinoid receptor CB1 with an IC50 of 8.92 μM. Auriculasin can be used in cancer research, especially related diseases such as prostate cancer and non-small cell lung cancer, as well as research on the development of anti-angiogenic drugs.
    Auriculasin
  • HY-163299
    pan-KRAS-IN-5
    		Inhibitor
    pan-KRAS-IN-5 is a pan-KRAS translation inhibitor by targeting 5′-UTR RNA G-quadruplexes (rG4s). pan-KRAS-IN-5 strongly binds to and stabilizes KRAS rG4s, inhibits KRAS translation, and blocks the MAPK and PI3K-AKT pathways. pan-KRAS-IN-5 induces cell cycle arrest, prompts apoptosis in KRAS-driven cancer cells. pan-KRAS-IN-5 inhibits tumor growth and KRAS expression in KRAS-mutant xenograft. KRAS-IN-5 can be used for KRAS-driven cancer research.
    pan-KRAS-IN-5
Cat. No. Product Name / Synonyms Application Reactivity
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Download PI3K Signaling Pathway Map.

Phosphatidylinositol 3 kinases (PI3Ks) are a family of lipid kinases that integrate signals from growth factors, cytokines and other environmental cues, translating them into intracellular signals that regulate multiple signaling pathways. These pathways control many physiological functions and cellular processes, which include cell proliferation, growth, survival, motility and metabolism[1]

 

In the absence of activating signals, p85 interacts with p110 and inhibits p110 kinase activity. Following receptor tyrosine kinase (RTK) or G protein-coupled receptor (GPCR) activation, class I PI3Ks are recruited to the plasma membrane, where p85 inhibition of p110 is relieved and p110 phosphorylates PIP2 to generate PIP3. The activated insulin receptor recruits intracellular adaptor protein IRS1. Phosphorylation of IRS proteins on tyrosine residues by the insulin receptor initiates the recruitment and activation of PI3K. PIP3 acts as a second messenger which promotes the phosphorylation of Akt at Thr308 by PDK-1. RTK activation can also trigger Ras-Raf-MEK-ERK pathway. Activated Akt, ERK and RSK phosphorylate TSC2 at multiple sites to inhibit TSC1-TSC2-TBC1D7, which is the TSC complex that acts as a GTPase-activating protein (GAP) for the small GTPase RHEB. During inhibition of the TSC complex, GTP-loaded RHEB binds the mTOR catalytic domain to activate mTORC1. Glycogen synthase kinase 3β (GSK-3β) activates the TSC complex by phosphorylating TSC2 at Ser1379 and Ser1383. Phosphorylation of these two residues requires priming by AMPK-dependent phosphorylation of Ser1387. Wnt signaling inhibits GSK-3β and the TSC complex, and thus activates mTORC1. mTORC2 is activated by Wnt in a manner dependent on the small GTPase RAC1. Akt activation contributes to diverse cellular activities which include cell survival, growth, proliferation, angiogenesis, metabolism, and migration. Important downstream targets of Akt are GSK-3, FOXOs, BAD, AS160, eNOS, and mTOR. mTORC1 negatively regulates autophagy through multiple inputs, including inhibitory phosphorylation of ULK1, and promotes protein synthesis through activation of the translation initiation promoter S6K and through inhibition of the inhibitory mRNA cap binding 4E-BP1[1][2][3].

 

PI3Kδ is a heterodimeric enzyme, typically composed of a p85α regulatory subunit and a p110δ catalytic subunit. In T cells, the TCR, the costimulatory receptor ICOS and the IL-2R can activate PI3Kδ. In B cells, PI3Kδ is activated upon crosslinking of the B cell receptor (BCR). The BCR co-opts the co-receptor CD19 or the adaptor B cell associated protein (BCAP), both of which have YXXM motifs to which the p85α SH2 domains can bind. In lumphocytes, BTK and ITK contribute to the activation of PLCγ and promotes the generation of DAG and the influx of Ca2+, which in turn activate PKC and the CARMA1-, BCL 10- and MALT1 containing (CBM) complex. The resulting NF-κB inhibitor kinase (IKK) activation leads to the phosphorylation and the degradation of IκB, and to the nuclear accumulation of the p50-p65 NF-κB heterodimer. MyD88 is an adapter protein that mediates signal transduction for most TLRs and leads to activation of PI3K[4].

 

Reference:

[1]. Thorpe LM, et al. PI3K in cancer: divergent roles of isoforms, modes of activation and therapeutic targeting.Nat Rev Cancer. 2015 Jan;15(1):7-24. 
[2]. Vanhaesebroeck B, et al. PI3K signalling: the path to discovery and understanding.Nat Rev Mol Cell Biol. 2012 Feb 23;13(3):195-203. 
[3]. Fruman DA, et al. The PI3K Pathway in Human Disease.Cell. 2017 Aug 10;170(4):605-635.
[4]. Lucas CL, et al. PI3Kδ and primary immunodeficiencies.Nat Rev Immunol. 2016 Nov;16(11):702-714. 

PI3K Isoform Comparison

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