Document Type : Original Article
1. ALTOMARE, D. A. & TESTA, J. R. 2005. Perturbations of the AKT signaling pathway in
human cancer. Oncogene, 24, 7455-64.
2. BARNETT, S. F., DEFEO-JONES, D., FU, S., HANCOCK, P. J., HASKELL, K. M.,
JONES, R. E., KAHANA, J. A., KRAL, A. M., LEANDER, K., LEE, L. L., MALINOWSKI,
J., MCAVOY, E. M., NAHAS, D. D., ROBINSON, R. G. & HUBER, H. E. 2005.
Identification and characterization of pleckstrin-homology-domain-dependent and isoenzymespecific
Akt inhibitors. Biochem J, 385, 399-408.
3. BARVE, V., AHMED, F., ADSULE, S., BANERJEE, S., KULKARNI, S., KATIYAR, P.,
ANSON, C. E., POWELL, A. K., PADHYE, S. & SARKAR, F. H. 2006. Synthesis,
molecular characterization, and biological activity of novel synthetic derivatives of chromen-
4-one in human cancer cells. J Med Chem, 49, 3800-8.
4. BERMAN, H. M. 2000. The Protein Data Bank. Nucleic Acids Research, 28, 235-242.
5. BRAZIL, D. P. & HEMMINGS, B. A. 2001. Ten years of protein kinase B signalling: a hard
Akt to follow. Trends Biochem Sci, 26, 657-64.
6. CHEUNG, M. & TESTA, J. R. 2013. Diverse mechanisms of AKT pathway activation in
human malignancy. Curr Cancer Drug Targets, 13, 234-44.
7. DELGADO-RAMIREZ, M., MORAN-ZENDEJAS, R., ARECHIGA-FIGUEROA, I. A.,
TORO-CASTILLO, C., RAMIREZ-MARTINEZ, J. F. & RODRIGUEZ-MENCHACA, A.
A. 2016. Modulation of the voltage-gated potassium channel Kv2.1 by the anti-tumor
alkylphospholipid perifosine. Pharmacol Rep, 68, 457-61.
8. EDLIND, M. P. & HSIEH, A. C. 2014. PI3K-AKT-mTOR signaling in prostate cancer
progression and androgen deprivation therapy resistance. Asian J Androl, 16, 378-86.
9. ERSAHIN, T., TUNCBAG, N. & CETIN-ATALAY, R. 2015. The PI3K/AKT/mTOR
interactive pathway. Mol Biosyst, 11, 1946-54.
10. FAYARD, E., TINTIGNAC, L. A., BAUDRY, A. & HEMMINGS, B. A. 2005. Protein
kinase B/Akt at a glance. J Cell Sci, 118, 5675-8.
11. FRANKE, T. F. 2008. PI3K/Akt: getting it right matters. Oncogene, 27, 6473-88.
12. HAY, N. 2005. The Akt-mTOR tango and its relevance to cancer. Cancer Cell, 8, 179-83.
13. HUANG, B. X., AKBAR, M., KEVALA, K. & KIM, H.-Y. 2011. Phosphatidylserine is a
critical modulator for Akt activation. The Journal of Cell Biology, 192, 979-992.
14. JO, H., LO, P. K., LI, Y., LOISON, F., GREEN, S., WANG, J., SILBERSTEIN, L. E., YE,
K., CHEN, H. & LUO, H. R. 2011. Deactivation of Akt by a small molecule inhibitor
targeting pleckstrin homology domain and facilitating Akt ubiquitination. Proc Natl Acad Sci
U S A, 108, 6486-91.
15. KIM, D., SUN, M., HE, L., ZHOU, Q. H., CHEN, J., SUN, X. M., BEPLER, G., SEBTI, S.
M. & CHENG, J. Q. 2016. A small molecule inhibits Akt through direct binding to Akt and
preventing Akt membrane translocation. J Biol Chem, 291, 22856.
16. KOHN, A. D., KOVACINA, K. S. & ROTH, R. A. 1995. Insulin stimulates the kinase
activity of RAC-PK, a pleckstrin homology domain containing ser/thr kinase. EMBO J, 14,
4288-95.
17. MAKINOSHIMA, H., TAKITA, M., SARUWATARI, K., UMEMURA, S., OBATA, Y.,
ISHII, G., MATSUMOTO, S., SUGIYAMA, E., OCHIAI, A., ABE, R., GOTO, K., ESUMI,
H. & TSUCHIHARA, K. 2015. Signaling through the Phosphatidylinositol 3-Kinase
(PI3K)/Mammalian Target of Rapamycin (mTOR) Axis Is Responsible for Aerobic
Glycolysis mediated by Glucose Transporter in Epidermal Growth Factor Receptor (EGFR)-
mutated Lung Adenocarcinoma. J Biol Chem, 290, 17495-504.
18. MANNING, B. D. & CANTLEY, L. C. 2007. AKT/PKB signaling: navigating downstream.
Cell, 129, 1261-74.
19. MEUILLET, E. J., ZUOHE, S., LEMOS, R., IHLE, N., KINGSTON, J., WATKINS, R.,
MOSES, S. A., ZHANG, S., DU-CUNY, L., HERBST, R., JACOBY, J. J., ZHOU, L. L.,
AHAD, A. M., MASH, E. A., KIRKPATRICK, D. L. & POWIS, G. 2010. Molecular
pharmacology and antitumor activity of PHT-427, a novel Akt/phosphatidylinositidedependent
protein kinase 1 pleckstrin homology domain inhibitor. Mol Cancer Ther, 9, 706-
17.
20. MGLTOOLS. 2017. Molecular Graphics Laboratory Tools [Online]. The Olson Laboratory.
Available: http://mgltools.scripps.edu/ [Accessed 01/08/2017 2017].
21. NICHOLSON, K. M. & ANDERSON, N. G. 2002. The protein kinase B/Akt signalling
pathway in human malignancy. Cell Signal, 14, 381-95.
22. O'BOYLE, N. M., BANCK, M., JAMES, C. A., MORLEY, C., VANDERMEERSCH, T. &
HUTCHISON, G. R. 2011. Open Babel: An open chemical toolbox. Journal of
Cheminformatics, 3, 33.
23. OKANO, J., GASLIGHTWALA, I., BIRNBAUM, M. J., RUSTGI, A. K. & NAKAGAWA,
H. 2000. Akt/protein kinase B isoforms are differentially regulated by epidermal growth
factor stimulation. J Biol Chem, 275, 30934-42.
24. PERKINELMER. 2009. ChemDraw Professional [Online]. PerkinElmer Inc. Available:
http://www.cambridgesoft.com/Ensemble_for_Chemistry/ChemDraw/ChemDrawProfessiona
l/Default.aspx [Accessed 01/07/2017 2017].
25. PETTERSEN, E. F., GODDARD, T. D., HUANG, C. C., COUCH, G. S., GREENBLATT,
D. M., MENG, E. C. & FERRIN, T. E. 2004. UCSF Chimera--a visualization system for
exploratory research and analysis. J Comput Chem, 25, 1605-12.
26. RAZMARA, M., HELDIN, C. H. & LENNARTSSON, J. 2013. Platelet-derived growth
factor-induced Akt phosphorylation requires mTOR/Rictor and phospholipase C-gamma1,
whereas S6 phosphorylation depends on mTOR/Raptor and phospholipase D. Cell Commun
Signal, 11, 3.
27. RHODES, N., HEERDING, D. A., DUCKETT, D. R., EBERWEIN, D. J., KNICK, V. B.,
LANSING, T. J., MCCONNELL, R. T., GILMER, T. M., ZHANG, S. Y., ROBELL, K.,
KAHANA, J. A., GESKE, R. S., KLEYMENOVA, E. V., CHOUDHRY, A. E., LAI, Z.,
LEBER, J. D., MINTHORN, E. A., STRUM, S. L., WOOD, E. R., HUANG, P. S.,
COPELAND, R. A. & KUMAR, R. 2008. Characterization of an Akt kinase inhibitor with
potent pharmacodynamic and antitumor activity. Cancer Res, 68, 2366-74.
28. RIGGIO, M., PERRONE, M. C., POLO, M. L., RODRIGUEZ, M. J., MAY, M., ABBA, M.,
LANARI, C. & NOVARO, V. 2017. AKT1 and AKT2 isoforms play distinct roles during
breast cancer progression through the regulation of specific downstream proteins. Sci Rep, 7,
44244.
29. SAHLBERG, S. H., MORTENSEN, A. C., HAGLÖF, J., ENGSKOG, M. K. R.,
ARVIDSSON, T., PETTERSSON, C., GLIMELIUS, B., STENERLÖW, B. & NESTOR, M.
2017. Different functions of AKT1 and AKT2 in molecular pathways, cell migration and
metabolism in colon cancer cells. International Journal of Oncology, 50, 5-14.
30. SONG, G., OUYANG, G. & BAO, S. 2005. The activation of Akt/PKB signaling pathway
and cell survival. J Cell Mol Med, 9, 59-71.
31. SUN, B., XU, H., ZHANG, G., ZHU, Y., SUN, H. & HOU, G. 2013. Basic fibroblast growth
factor upregulates survivin expression in hepatocellular carcinoma cells via a protein kinase
B-dependent pathway. Oncol Rep, 30, 385-90.
32. SYSTÈMES, D. 2016. Discovery Studio Modeling Environment. 4.1 ed. San Diego: Dassault
Systèmes.
33. THIMMAIAH, K. N., EASTON, J. B., GERMAIN, G. S., MORTON, C. L., KAMATH, S.,
BUOLAMWINI, J. K. & HOUGHTON, P. J. 2005. Identification of N10-substituted
phenoxazines as potent and specific inhibitors of Akt signaling. J Biol Chem, 280, 31924-35.
34. THOMAS, C. C., DEAK, M., ALESSI, D. R. & VAN AALTEN, D. M. F. 2002. High-
Resolution Structure of the Pleckstrin Homology Domain of Protein Kinase B/Akt Bound to
Phosphatidylinositol (3,4,5)-Trisphosphate. Current Biology, 12, 1256-1262.
35. TROTT, O. & OLSON, A. J. 2010. AutoDock Vina: improving the speed and accuracy of
docking with a new scoring function, efficient optimization, and multithreading. J Comput
Chem, 31, 455-61.
36. TZIVION, G., DOBSON, M. & RAMAKRISHNAN, G. 2011. FoxO transcription factors;
Regulation by AKT and 14-3-3 proteins. Biochim Biophys Acta, 1813, 1938-45.
37. WOODGETT, J. R. 2005. Recent advances in the protein kinase B signaling pathway. Curr
Opin Cell Biol, 17, 150-7.
38. YANG, L., DAN, H. C., SUN, M., LIU, Q., SUN, X. M., FELDMAN, R. I., HAMILTON, A.
D., POLOKOFF, M., NICOSIA, S. V., HERLYN, M., SEBTI, S. M. & CHENG, J. Q. 2004.
Akt/protein kinase B signaling inhibitor-2, a selective small molecule inhibitor of Akt
signaling with antitumor activity in cancer cells overexpressing Akt. Cancer Res, 64, 4394-9.
human cancer. Oncogene, 24, 7455-64.
2. BARNETT, S. F., DEFEO-JONES, D., FU, S., HANCOCK, P. J., HASKELL, K. M.,
JONES, R. E., KAHANA, J. A., KRAL, A. M., LEANDER, K., LEE, L. L., MALINOWSKI,
J., MCAVOY, E. M., NAHAS, D. D., ROBINSON, R. G. & HUBER, H. E. 2005.
Identification and characterization of pleckstrin-homology-domain-dependent and isoenzymespecific
Akt inhibitors. Biochem J, 385, 399-408.
3. BARVE, V., AHMED, F., ADSULE, S., BANERJEE, S., KULKARNI, S., KATIYAR, P.,
ANSON, C. E., POWELL, A. K., PADHYE, S. & SARKAR, F. H. 2006. Synthesis,
molecular characterization, and biological activity of novel synthetic derivatives of chromen-
4-one in human cancer cells. J Med Chem, 49, 3800-8.
4. BERMAN, H. M. 2000. The Protein Data Bank. Nucleic Acids Research, 28, 235-242.
5. BRAZIL, D. P. & HEMMINGS, B. A. 2001. Ten years of protein kinase B signalling: a hard
Akt to follow. Trends Biochem Sci, 26, 657-64.
6. CHEUNG, M. & TESTA, J. R. 2013. Diverse mechanisms of AKT pathway activation in
human malignancy. Curr Cancer Drug Targets, 13, 234-44.
7. DELGADO-RAMIREZ, M., MORAN-ZENDEJAS, R., ARECHIGA-FIGUEROA, I. A.,
TORO-CASTILLO, C., RAMIREZ-MARTINEZ, J. F. & RODRIGUEZ-MENCHACA, A.
A. 2016. Modulation of the voltage-gated potassium channel Kv2.1 by the anti-tumor
alkylphospholipid perifosine. Pharmacol Rep, 68, 457-61.
8. EDLIND, M. P. & HSIEH, A. C. 2014. PI3K-AKT-mTOR signaling in prostate cancer
progression and androgen deprivation therapy resistance. Asian J Androl, 16, 378-86.
9. ERSAHIN, T., TUNCBAG, N. & CETIN-ATALAY, R. 2015. The PI3K/AKT/mTOR
interactive pathway. Mol Biosyst, 11, 1946-54.
10. FAYARD, E., TINTIGNAC, L. A., BAUDRY, A. & HEMMINGS, B. A. 2005. Protein
kinase B/Akt at a glance. J Cell Sci, 118, 5675-8.
11. FRANKE, T. F. 2008. PI3K/Akt: getting it right matters. Oncogene, 27, 6473-88.
12. HAY, N. 2005. The Akt-mTOR tango and its relevance to cancer. Cancer Cell, 8, 179-83.
13. HUANG, B. X., AKBAR, M., KEVALA, K. & KIM, H.-Y. 2011. Phosphatidylserine is a
critical modulator for Akt activation. The Journal of Cell Biology, 192, 979-992.
14. JO, H., LO, P. K., LI, Y., LOISON, F., GREEN, S., WANG, J., SILBERSTEIN, L. E., YE,
K., CHEN, H. & LUO, H. R. 2011. Deactivation of Akt by a small molecule inhibitor
targeting pleckstrin homology domain and facilitating Akt ubiquitination. Proc Natl Acad Sci
U S A, 108, 6486-91.
15. KIM, D., SUN, M., HE, L., ZHOU, Q. H., CHEN, J., SUN, X. M., BEPLER, G., SEBTI, S.
M. & CHENG, J. Q. 2016. A small molecule inhibits Akt through direct binding to Akt and
preventing Akt membrane translocation. J Biol Chem, 291, 22856.
16. KOHN, A. D., KOVACINA, K. S. & ROTH, R. A. 1995. Insulin stimulates the kinase
activity of RAC-PK, a pleckstrin homology domain containing ser/thr kinase. EMBO J, 14,
4288-95.
17. MAKINOSHIMA, H., TAKITA, M., SARUWATARI, K., UMEMURA, S., OBATA, Y.,
ISHII, G., MATSUMOTO, S., SUGIYAMA, E., OCHIAI, A., ABE, R., GOTO, K., ESUMI,
H. & TSUCHIHARA, K. 2015. Signaling through the Phosphatidylinositol 3-Kinase
(PI3K)/Mammalian Target of Rapamycin (mTOR) Axis Is Responsible for Aerobic
Glycolysis mediated by Glucose Transporter in Epidermal Growth Factor Receptor (EGFR)-
mutated Lung Adenocarcinoma. J Biol Chem, 290, 17495-504.
18. MANNING, B. D. & CANTLEY, L. C. 2007. AKT/PKB signaling: navigating downstream.
Cell, 129, 1261-74.
19. MEUILLET, E. J., ZUOHE, S., LEMOS, R., IHLE, N., KINGSTON, J., WATKINS, R.,
MOSES, S. A., ZHANG, S., DU-CUNY, L., HERBST, R., JACOBY, J. J., ZHOU, L. L.,
AHAD, A. M., MASH, E. A., KIRKPATRICK, D. L. & POWIS, G. 2010. Molecular
pharmacology and antitumor activity of PHT-427, a novel Akt/phosphatidylinositidedependent
protein kinase 1 pleckstrin homology domain inhibitor. Mol Cancer Ther, 9, 706-
17.
20. MGLTOOLS. 2017. Molecular Graphics Laboratory Tools [Online]. The Olson Laboratory.
Available: http://mgltools.scripps.edu/ [Accessed 01/08/2017 2017].
21. NICHOLSON, K. M. & ANDERSON, N. G. 2002. The protein kinase B/Akt signalling
pathway in human malignancy. Cell Signal, 14, 381-95.
22. O'BOYLE, N. M., BANCK, M., JAMES, C. A., MORLEY, C., VANDERMEERSCH, T. &
HUTCHISON, G. R. 2011. Open Babel: An open chemical toolbox. Journal of
Cheminformatics, 3, 33.
23. OKANO, J., GASLIGHTWALA, I., BIRNBAUM, M. J., RUSTGI, A. K. & NAKAGAWA,
H. 2000. Akt/protein kinase B isoforms are differentially regulated by epidermal growth
factor stimulation. J Biol Chem, 275, 30934-42.
24. PERKINELMER. 2009. ChemDraw Professional [Online]. PerkinElmer Inc. Available:
http://www.cambridgesoft.com/Ensemble_for_Chemistry/ChemDraw/ChemDrawProfessiona
l/Default.aspx [Accessed 01/07/2017 2017].
25. PETTERSEN, E. F., GODDARD, T. D., HUANG, C. C., COUCH, G. S., GREENBLATT,
D. M., MENG, E. C. & FERRIN, T. E. 2004. UCSF Chimera--a visualization system for
exploratory research and analysis. J Comput Chem, 25, 1605-12.
26. RAZMARA, M., HELDIN, C. H. & LENNARTSSON, J. 2013. Platelet-derived growth
factor-induced Akt phosphorylation requires mTOR/Rictor and phospholipase C-gamma1,
whereas S6 phosphorylation depends on mTOR/Raptor and phospholipase D. Cell Commun
Signal, 11, 3.
27. RHODES, N., HEERDING, D. A., DUCKETT, D. R., EBERWEIN, D. J., KNICK, V. B.,
LANSING, T. J., MCCONNELL, R. T., GILMER, T. M., ZHANG, S. Y., ROBELL, K.,
KAHANA, J. A., GESKE, R. S., KLEYMENOVA, E. V., CHOUDHRY, A. E., LAI, Z.,
LEBER, J. D., MINTHORN, E. A., STRUM, S. L., WOOD, E. R., HUANG, P. S.,
COPELAND, R. A. & KUMAR, R. 2008. Characterization of an Akt kinase inhibitor with
potent pharmacodynamic and antitumor activity. Cancer Res, 68, 2366-74.
28. RIGGIO, M., PERRONE, M. C., POLO, M. L., RODRIGUEZ, M. J., MAY, M., ABBA, M.,
LANARI, C. & NOVARO, V. 2017. AKT1 and AKT2 isoforms play distinct roles during
breast cancer progression through the regulation of specific downstream proteins. Sci Rep, 7,
44244.
29. SAHLBERG, S. H., MORTENSEN, A. C., HAGLÖF, J., ENGSKOG, M. K. R.,
ARVIDSSON, T., PETTERSSON, C., GLIMELIUS, B., STENERLÖW, B. & NESTOR, M.
2017. Different functions of AKT1 and AKT2 in molecular pathways, cell migration and
metabolism in colon cancer cells. International Journal of Oncology, 50, 5-14.
30. SONG, G., OUYANG, G. & BAO, S. 2005. The activation of Akt/PKB signaling pathway
and cell survival. J Cell Mol Med, 9, 59-71.
31. SUN, B., XU, H., ZHANG, G., ZHU, Y., SUN, H. & HOU, G. 2013. Basic fibroblast growth
factor upregulates survivin expression in hepatocellular carcinoma cells via a protein kinase
B-dependent pathway. Oncol Rep, 30, 385-90.
32. SYSTÈMES, D. 2016. Discovery Studio Modeling Environment. 4.1 ed. San Diego: Dassault
Systèmes.
33. THIMMAIAH, K. N., EASTON, J. B., GERMAIN, G. S., MORTON, C. L., KAMATH, S.,
BUOLAMWINI, J. K. & HOUGHTON, P. J. 2005. Identification of N10-substituted
phenoxazines as potent and specific inhibitors of Akt signaling. J Biol Chem, 280, 31924-35.
34. THOMAS, C. C., DEAK, M., ALESSI, D. R. & VAN AALTEN, D. M. F. 2002. High-
Resolution Structure of the Pleckstrin Homology Domain of Protein Kinase B/Akt Bound to
Phosphatidylinositol (3,4,5)-Trisphosphate. Current Biology, 12, 1256-1262.
35. TROTT, O. & OLSON, A. J. 2010. AutoDock Vina: improving the speed and accuracy of
docking with a new scoring function, efficient optimization, and multithreading. J Comput
Chem, 31, 455-61.
36. TZIVION, G., DOBSON, M. & RAMAKRISHNAN, G. 2011. FoxO transcription factors;
Regulation by AKT and 14-3-3 proteins. Biochim Biophys Acta, 1813, 1938-45.
37. WOODGETT, J. R. 2005. Recent advances in the protein kinase B signaling pathway. Curr
Opin Cell Biol, 17, 150-7.
38. YANG, L., DAN, H. C., SUN, M., LIU, Q., SUN, X. M., FELDMAN, R. I., HAMILTON, A.
D., POLOKOFF, M., NICOSIA, S. V., HERLYN, M., SEBTI, S. M. & CHENG, J. Q. 2004.
Akt/protein kinase B signaling inhibitor-2, a selective small molecule inhibitor of Akt
signaling with antitumor activity in cancer cells overexpressing Akt. Cancer Res, 64, 4394-9.
)