1、The PI3K/Akt/mTOR pathway plays an important role in apoptosis. Activated PI3K generates phosphatidylinositol-3,4,5-triphosphate, which recruits PDK1 and Akt serine/threonine kinase at the plasma membrane. This results in activation of Akt. Akt activates multiple downstream targets, including the mT
2、OR pathway. Akt in this patyway is flanked by two tumor suppressors, PTEN and TSC1/TSC2 heterodimer.Various receptor tyrosine kinases (RTKs), such as human epidermal growth factor receptor 2 (HER2), epidermal growth factor receptor (EGFR), insulin-like growth factor receptor and vascular endothelial
3、 growth factor receptor, activate the growth and survive of cells in the manner of mobilizing the intracellular PI3K signaling pathway 12; 36. The carcinogenic role of the PI3K pathway firstly came into the notice since mutation-induced abnormal cellular signaling was associated with malignant proli
4、feration and growth 58. Increasing evidence indicated that PI3K signaling pathway was usually found to be disordered in many kinds of cancers.THE PI3K FAMILY MEMBERSAll PI3K family members have the ability to phosphorylate the 3-hydroxyl group of phosphoinositides 9. They could be generally classifi
5、ed into three classes according to their primary structure, regulation, and in vitro lipid substrate specificity 34. Class I PI3Ks are heterodimers containing a regulatory subunit and a catalytic subunit, which might be involved in malignant transformation in many different cancer types. The genes o
6、f PIK3R1, PIK3R2 and PIK3R3 encode the regulatory subunit, namely p85 (, and ) 38. p110 is the catalytic subunit of class IA PI3K. The function of PI3K enzymes is mainly depended on it. There are four isoforms of p110: , , and , which are encoded by the genes of PIK3CA, PIK3CB, PI3KCG and PIK3CD, re
7、spectively. Among the rest, p110-is involved in the growth of cell and is the isoform which is often out of control under cancer state. In addition, class II PI3K enzymes are monomeric and involved in cell surface trafficking, whereas class III PI3K enzymes are implicated in the regulation of autoph
8、agy 38.ACTIVITY CONTROLThe class IA PI3K enzyme complex is closely associated with phosphotyrosine residues on the intracellular membrane portion of RTKs. Under normal state, p85 locks the catalytic site of p110 subunit. Once the RTK was activated by its ligands, the catalytic site of p110 was expos
9、e. As a result, phosphatidylinositol 3,4,5-triphosphate (PIP3), as a second massager, was released at the cell membrane. This process could be regulated by phosphatase and tensin homolog (PTEN), which cut off the signal by metabolize PIP3 into PIP2. Therefor, lack of PTEN often lead to hyperactivati
10、on of PI3K pathway signaling. Another tumor suppressive factor named inositol polyphosphate 4-phosphatase type II (INPP4B) was found to negatively regulate the PI3K pathway by converting PIP2 into PIP 19. Dual knockdown of INPP4B and PTEN in human epithelial cells has been shown to result in cellula
11、r senescence 19. The PI3K pathway can also be mobilized by RAS, which could directly activate the catalytic subunit p110 12.MECHANISM OF ACTIONPIP3 recruits cellular proteins containing lipid-binding domains to cell membranes and binds to the pleckstrin homology domain in the N-terminal region of AK
12、T. In this manner, PIP3 induces a conformational change in AKT revealing two amino acid, Thr308 and Ser473, and facilitate the full phosphorylation of Akt 47. mTOR, also known as FKBP12-rapamycin-associated protein (FRAP), is a 280 kDa serine/threonine kinase downstream of Akt. mTOR is the nuclear c
13、atalytic subunit of two complexes: mTORC1 and mTORC2 66. mTORC1 is comprised of mTOR, Raptor, mLST8, and PRAS40 (a mTOR inhibitor). This complex presented classic features of mTOR as a nutrient or energy sensor and protein synthesis conditioner 16; 22; 29; 30; 46; 51. The activated mTORC1 showed a n
14、egative feedback inhibition on PI3K signaling 61. Different from mTORC1, activated mTORC2 could induce the phosphorylation of Akt at serine 473 and serving as a positive feedback on PI3K signaling cascade 53.PI3K AND PAINRecently, several lines of evidence suggested the involvement of PI3K signaling
15、 cascades in the regulation of central and peripheral sensitization. The increased activation of Akt was often found in DRG and dorsal horn neurons 11; 48; 49; 57; 59; 60; 69. Correspondingly, intrathecally injection of PI3K inhibitors suppressed nerve injury-induced (Xu et al., 2007) and chemical-i
16、nduced 11; 48; 60 hyperalgesia. Furthermore, spinally inhibition of mTOR by rapamycin showed well anti-nociceptive effect in some animal pain models 5; 18; 28; 45; 50. It suggested that PI3K pathway might be a potential target for the development of novel analgesics.PI3K AND PROTEIN SYNTHESISWhats m
17、ore, in young animals, a big mount of new protein synthesis are required in the nervous system development processes, like axon guidance and synapse formation 7; 8; 41; 67. It was reported that BDNF induced translation of the Homer2 and GluR1 mRNAs in synaptoneurosomes could be well inhibited by usi
18、ng the specific PI3KmTOR kinase inhibitors rapamycin and LY294002 55. Thus, the PI3K / Akt / mTOR related mRNA translation and protein expression seems to be more significant.PI3K AND NEURAL PLASTICITYOn the other hand, in adult animal or human being, new protein synthesis also plays important roles
19、 in many aspects, such as the modulation of long-term synaptic plasticity (LTP), which is associated with learning and memory, as well as pain sensation mentioned above 6. Specifically, it has been found that the local protein synthesis in neurosynapse is essential for the function and morphology of
20、 nervous system 27; 40. In previous research, rapamycin, the specific inhibitor of mTOR, significantly suppressed the plastic changes in postmitotic neurons 10; 62. It suggested the core role of mTOR in neural plasticity. In addition, the phosphorylation of 4EBP, the very downstream molecule of mTOR
21、, was increased in rat hippocampus after spatial learning 42. It suggested that PI3K/Akt/mTOR signaling-dependent mRNA translation is involved in the higher brain function.PI3K AND ONCOLOGYIn recent decades, PI3K pathway was most frequently mentioned in the area of oncology for the reason that PI3K
22、was almost involved in all developmental processes of tumor or cancer. The oncogenic transformation of cultured cells as well as the progression of a variety of tumors in vivo has been reported to be induced by mutations or overexpression of p110 isoforms. Mutations affecting the expression or funct
23、ion of p110 isoforms could induce oncogenic transformation 21; 37; 52. The carcinogenic activity of p110 has been confirmed in ovarian cancers patient. Increased PIK3CA gene copies correlated with the overexpression of the p110 subunit led to an enhancive role of PI3 kinase 56. Overexpression of hyp
24、eractive p110 derived the development of a intraepithelial neoplasia in the prostate of mice 33. Importantly, Akt is probable to be the mediator of p110-induced tumorigenesis 26. There is also evidence revealed that the progression of multiple B-cell malignancies could be induced by a constitutive a
25、ctivation of p110 32.PI3K AND SYSTEMIC IMMUNEChronic inflammation is a major cause of cancer. Much studies demonstrate that PI3Ks activity is essential in regulating chemokine production and the migration of leukocytes in immune response. For instance, in vivo research showed that p110 is required t
26、o allow chemotactic migration of immune cells to inflammatory sites 39; 54. Moreover, the release of inflammatory factors, like IL-8, Mip-1, and Mip-1, by neutrophils in response to immune stimulus requires the activity of p110 complex 17. PI3K/Akt pathway has also been reported to be related to the
27、 immune recognition of tumor cells. It was found that DAP10, the NKG2D-associated adapter protein in natural killer (NK) cells, could anchor to the p85 subunit of PI3K and lead to the activation of Akt pathway. This signaling cascades then strengthen the production of chemokine by NK cells 31; 63; 6
28、5.In some cases, the PI3K pathway is also responsible for the escape of cells from immune system. A hyperactivation of Akt was found in a immune-resistant human papillomavirus type 16 (HPV-16) tumor cell line. It was thought to be responsible for the enhenced resistance of these cells to CD8 T-cell-
29、mediated apoptosis 44. Interestingly, cancer cells was found to suppress immune by some manners, including releasing immune-suppressive cytokines and chemokines, or inducing lymphocyte apoptosis 43; 64.Due to the super activation of the PI3K signaling pathway in cancer cells, uncontrollable prolifer
30、ation, survival and angiogenesis in various human malignancies had an opportunity to occur. Enormous efforts have been made for developing medicines targeting PI3K / Akt / mTOR pathway.THE SPECIFIC INHIBITORS OF PI3KWortmannin and LY294002 are first-generation pan-PI3K inhibitors. Wortmannin, a fura
31、nosteroid metabolite of the fungi Talaromyces (Penicillium) wortmannii, is a specific inhibitor of PI3K. LY294002 was the first synthetic small molecule that reversibly inhibits the PI3K family members. Unfortunately, they have IC50 in micromolar range and displays similar potency for inhibiting the
32、 activity of Class I, II, and III PI3K members in vitro. In other words, they showed no selectivity for each PI3K isoforms. Furthermore, wortmannin or LY294002 displyed unfavorable pharmacokinetic properties and much toxicities in animals 4; 24; 35. Thus it was failed to develop them into clinical d
33、rugs. However, these studies provide useful information of the PI3K signaling for the development of novel PI3K inhibitors.In the following research works, isoform-selective PI3K inhibitors were reported. PI-103 is able to inhibit both p110a and mTOR in glioma cells 15. A Phase I study showed that a
34、 selective inhibitor of p110 called CAL-101 could be helpful with the treatment of hematologic malignancies in patients 25. PX-866, a pan-PI3K inhibitor, showed a mild side effect in part of the patients with solid tumors, such as squamous cell skin cancer and melanoma 2. GDC0941, another pan-PI3K i
35、nhibitor, also displayed desirable anticancer effect in sarcoma, ovarian cancer and endometrial cancer patients 13.THE SPECIFIC INHIBITORS OF AKTAkt is another potential target for the therapy of cancer for the reason that Akt is one of the most important downstream molecule of PI3Ks. There are thre
36、e isoforms of Akt: Akt1, Akt2 and Akt3. Perifosine, a PAN-Akt inhibitor, could bind to Akt and prevent Akt from binding to PIP3 and subsequent membrane translocation 23. It has been in a Phase I clinical trial to treat solid tumors and lymphoma. A dual inhibitor of Akt1 and Akt2 named Akti-1/2 showe
37、d potent antitumor activity in tumor xenograft models. MK2206, the analog of Akti-1/2, is now in the Phase I clinical trial for the treatment of locally advanced or metastatic solid tumors and a Phase II study in advanced hepatocellular carcinoma 1; 3.THE SPECIFIC INHIBITORS OF mTORAs one of the key
38、 components of PI3K pathway, mTOR exists in two different complexes, mTORC1 and mTORC2. Rapamycin or sirolimus (Rapamune; Wyeth, NJ, USA), which mainly inhibits the activity of mTORC1, presented well antitumor effect recently 14; 20. However, for the bad solubility of rapamycin in aqueous solution,
39、several rapamycin analogs such as Everolimus (RAD001/Afinitor; Novartis, Basel, Switzerland) and temsirolimus (CCI-779/ Torisel; Wyeth) have been developed, which have been approved for the treatment of advanced renal cell carcinoma.Under some conditions, inhibiting more than one target of PI3K path
40、way might lead to better effect. BEZ235, dual PI3K/mTOR inhibitor, inhibits Class I PI3K isoforms and mTOR kinase activity by binding to the ATP-binding pocket of PI3K. It has strong anti-proliferative effect on tumor xenografts and is now under Phase I/II clinical trials for breast cancer and endometrial cancer 1.
