Diacylglycerol Signaling

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5 Regulation of PKC by Protein–Protein Interactions in Cancer Castagna, M., Takai, Y., Kaibuchi, K., Sano, K., Kikkawa, U., & Nishizuka, Y. (1982). Direct activation of calcium-activated, phospholipid-dependent protein kinase by tumor-promoting phorbol esters. The Journal of Biological Chemistry, 257, 7847–7851. Chan, K. S., Carbajal, S., Kiguchi, K., Clifford, J., Sano, S., & DiGiovanni, J. (2004a). Epidermal growth factor receptor-mediated activation of Stat3 during multistage skin carcinogenesis. Cancer Research, 64, 2382–2389. Chan, K. S., Carbajal, S., Kiguchi, K., Clifford, J., Sano, S., & DiGiovanni, J. (2004b). Disruption of Stat3 reveals a critical role in both the initiation and the promotion stages of epithelial carcinogenesis. The Journal of Clinical Investigation, 114, 720–728. Chang, B. Y., Chiang, M., & Cartwright, C. A. (2001). The interaction of Src and RACK1 is enhanced by activation of protein kinase C and tyrosine phosphorylation of RACK1. The Journal of Biological Chemistry, 276, 20346–20356. Chang, B. Y., Harte, R. A., & Cartwright, C. A. (2002). RACK1: A novel substrate for the Src protein-tyrosine kinase. Oncogene, 21, 7619–7629. Chang, B. Y., Conroy, K. B., Machleder, E. M., & Cartwright, C. A. (1998). RACK1, a receptor for activated C kinase and a homolog of the beta subunit of G proteins, inhibits activity of src tyrosine kinases and growth of NIH 3T3 cells. Molecular and Cellular Biology, 18, 3245–3256. Chen, Y. B., & LaCasce, A. S. (2008). Enzastaurin. Expert Opinion on Investigational Drugs, 17, 939–944. Chen, L., Hahn, H., Wu, G., Chen, C. H., Liron, T., & Schechtman, D., et al. (2001). Opposing cardioprotective actions and parallel hypertrophic effects of delta PKC and epsilon PKC. Proceedings of the National Academy of Sciences of the United States of America, 98, 11114–11119. Chen, D., Purohit, A., Halilovic, E., Doxsey, S. J., & Newton, A. C. (2004). Centrosomal anchoring of protein kinase C betaII by pericentrin controls microtubule organization, spindle function, and cytokinesis. The Journal of Biological Chemistry, 279, 4829–4839. Churchill, E. N., Qvit, N., & Mochly-Rosen, D. (2009). Rationally designed peptide regulators of protein kinase C. Trends in Endocrinology and Metabolism, 20, 25–33. Churchill, E. N., Murriel, C. L., Chen, C. H., Mochly-Rosen, D., & Szweda, L. I. (2005). Reperfusion-induced translocation of deltaPKC to cardiac mitochondria prevents pyruvate dehydrogenase reactivation. Circulation Research, 97, 78–85. Csukai, M., Chen, C. H., De Matteis, M. A., Mochly-Rosen, D. (1997). The coatomer protein beta’-COP, a selective binding protein (RACK) for protein kinase Cepsilon. The Journal of Biological Chemistry, 272, 29200–29206. Das Evcimen, N., & King, G. L. (2007). The role of protein kinase C activation and the vascular complications of diabetes. Pharmacological Research, 55, 498–510. De Camilli, P., Takei, K., & McPherson, P. S. (1995). The function of dynamin in endocytosis. Current Opinion in Neurobiology, 5, 559–565. Dell, E. J., Connor, J., Chen, S., Stebbins, E. G., Skiba, N. P., Mochly-Rosen, D., et al. (2002). The betagamma subunit of heterotrimeric G proteins interacts with RACK1 and two other WD repeat proteins. The Journal of Biological Chemistry, 277, 49888–49895. Disatnik, M. H., Buraggi, G., & Mochly-Rosen, D. (1994). Localization of protein kinase C isozymes in cardiac myocytes. Experimental Cell Research, 210, 287–297. Doxsey, S. J., Stein, P., Evans, L., Calarco, P. D., & Kirschner, M. (1994). Pericentrin, a highly conserved centrosome protein involved in microtubule organization. Cell, 76, 639–650. Eckes, B., Dogic, D., Colucci-Guyon, E., Wang, N., Maniotis, A. I., Ngber, D., et al. (1998). Impaired mechanical stability, migration and contractile capacity in vimentin-deficient fibroblasts. Journal of Cell Science, 111(Pt 13), 1897–1907. Eckes, B., Colucci-Guyon, E., Smola, H., Nodder, S., Babinet, C., Krieg, T., & Martin, P. (2000). Impaired wound healing in embryonic and adult mice lacking vimentin. Journal of Cell Science, 113(Pt 13), 2455–2462. Edwards, A. S., & Newton, A. C. (1997). Phosphorylation at conserved carboxyl-terminal hydrophobic motif regulates the catalytic and regulatory domains of protein kinase C. The Journal of Biological Chemistry, 272, 18382–18390. 97
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Current Cancer Research For other t
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Editor Marcelo G. Kazanietz, Ph.D.
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Contents Part I Regulation of PKC I
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Contents 21 PKC and Resistance to C
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xii Contributors Maria T. Diaz-Meco
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xiv Contributors Lauren Van Wassenh
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Chapter 1 Protein Kinase C in Cance
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1 Protein Kinase C in Cancer Signal
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1 Protein Kinase C in Cancer Signal
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Chapter 2 Regulation of Conventiona
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2 Regulation of Conventional and No
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26 P.M. Blumberg et al. 3.1 Introdu
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28 P.M. Blumberg et al. 1981; Diamo
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30 P.M. Blumberg et al. 3.4 DAG-Lac
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32 P.M. Blumberg et al. 3.6 Role of
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34 P.M. Blumberg et al. Interesting
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36 P.M. Blumberg et al. the proximi
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38 P.M. Blumberg et al. 3.14 C1 Dom
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40 P.M. Blumberg et al. the A and B
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42 P.M. Blumberg et al. The above r
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44 P.M. Blumberg et al. 3.19 Role o
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46 P.M. Blumberg et al. 3.20 Conclu
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48 P.M. Blumberg et al. Churchill,
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50 P.M. Blumberg et al. the isoster
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52 P.M. Blumberg et al. Pu, Y., Pea
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Chapter 4 Diacylglycerol Signaling:
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4 Diacylglycerol Signaling OH O P D
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4 Diacylglycerol Signaling intermed
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4 Diacylglycerol Signaling cPKC (α
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4 Diacylglycerol Signaling 4.3 DAG
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4 Diacylglycerol Signaling DGKα DG
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4 Diacylglycerol Signaling the spat
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4 Diacylglycerol Signaling adhesion
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Page 180: Chapter 5 Regulation of PKC by Prot
Page 184: 5 Regulation of PKC by Protein-Prot
Page 218: 98 J. Kim and D. Mochly-Rosen Emanu
Page 222: 100 J. Kim and D. Mochly-Rosen Kraf
Page 226: 102 J. Kim and D. Mochly-Rosen Saur
Page 230: Part II PKC Isozymes in the Control
Page 234: 108 G.K. Lønne and C. Larsson Neve
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Page 246: 114 G.K. Lønne and C. Larsson Kaza
Page 250: Chapter 7 Regulation and Function o
Page 254: 7 Regulation and Function of Protei
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7 Regulation and Function of Protei
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Chapter 8 PKC and Control of the Ce
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8 PKC and Control of the Cell Cycle
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Chapter 9 PKC and the Control of Ap
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9 PKC and the Control of Apoptosis
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Chapter 10 Atypical PKCs, NF-kB, an
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10 Atypical PKCs, NF-kB, and Inflam
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Part III PKC Isozymes in Cancer
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248 M.G. Kazanietz to NIH 3T3 cells
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250 M.G. Kazanietz Kiley, S. C., Cl
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Chapter 12 Protein Kinase C, p53, a
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12 Protein Kinase C, p53, and DNA D
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268 N.A. Riobo PTCH Patched SMO Smo
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270 N.A. Riobo OFF Hh ON N PATCHED
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272 N.A. Riobo 13.3 Hedgehog Signal
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274 N.A. Riobo the activation of Gl
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276 N.A. Riobo vertebrates in a b-c
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278 N.A. Riobo numerous colon polyp
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280 N.A. Riobo It is remarkable tha
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282 N.A. Riobo Some Wnt isoforms, k
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284 N.A. Riobo James, R.G., Conrad,
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286 N.A. Riobo Rohatgi, R., Milenko
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288 Q.J. Wang (Blumberg 1988). DAG
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290 Q.J. Wang Gbg PKCh PKD PI4K III
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292 Q.J. Wang 2003b). At the mitoch
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294 Q.J. Wang tumors and their prop
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296 Q.J. Wang regulating integrin r
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298 Q.J. Wang 14.6 Concluding Remar
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300 Q.J. Wang Harrison, B. C., Kim,
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302 Q.J. Wang Storz, P., Doppler, H
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Chapter 15 Transgenic Mouse Models
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15 Transgenic Mouse Models to Inves
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324 M.F. Denning common subtype of
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326 M.F. Denning Fig. 16.1 PKC isoz
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328 M.F. Denning and CXCR2 ligands
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330 M.F. Denning Fig. 16.2 Model of
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332 M.F. Denning 16.3 Basal Cell Ca
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334 M.F. Denning Fig. 16.3 PKC in m
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336 M.F. Denning some benign nevi a
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338 M.F. Denning Cataisson, C., Pea
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340 M.F. Denning Gilhooly, E. M., M
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342 M.F. Denning Nishizuka, Y. (198
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344 M.F. Denning Sikkink, S. K., Re
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Chapter 17 PKC and Breast Cancer *
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17 PKC and Breast Cancer Relative E
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17 PKC and Breast Cancer The array
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17 PKC and Breast Cancer 17.7 Growt
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17 PKC and Breast Cancer showed tha
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17 PKC and Breast Cancer de Vente,
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17 PKC and Breast Cancer Palmantier
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Chapter 18 PKC and Prostate Cancer
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18 PKC and Prostate Cancer In Dunni
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18 PKC and Prostate Cancer may be c
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18 PKC and Prostate Cancer an inhib
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18 PKC and Prostate Cancer protein-
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18 PKC and Prostate Cancer expressi
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18 PKC and Prostate Cancer PKCbII a
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18 PKC and Prostate Cancer Gonzalez
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18 PKC and Prostate Cancer Sakamoto
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Chapter 19 Protein Kinase C and Lun
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19 Protein Kinase C and Lung Cancer
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Chapter 20 Introduction Patricia S.
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20 Introduction The first compound
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20 Introduction Tamaoki, T., & Naka
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410 A. Basu DNA. Because chemothera
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412 A. Basu to doxorubicin was asso
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414 A. Basu PKC in vitro (Chambers
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416 A. Basu decreasing the levels o
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418 A. Basu of cisplatin-sensitive
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420 A. Basu 21.3.4 Mechanism of PKC
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422 A. Basu In contrast, PKCi but n
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424 A. Basu Brodie, C., & Blumberg,
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426 A. Basu Higgins, C. F. (1993).
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428 A. Basu Pulaski, L., Szemraj, J
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Chapter 22 PKCd as a Target for Che
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22 PKCd as a Target for Chemotherap
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456 V. Justilien and A.P. Fields fa
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458 V. Justilien and A.P. Fields By
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460 V. Justilien and A.P. Fields In
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462 V. Justilien and A.P. Fields en
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464 V. Justilien and A.P. Fields A
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466 V. Justilien and A.P. Fields sm
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468 V. Justilien and A.P. Fields PK
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470 V. Justilien and A.P. Fields 23
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472 V. Justilien and A.P. Fields in
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474 V. Justilien and A.P. Fields pr
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476 V. Justilien and A.P. Fields un
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478 V. Justilien and A.P. Fields Ad
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480 V. Justilien and A.P. Fields Go
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482 V. Justilien and A.P. Fields Mu
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484 V. Justilien and A.P. Fields Wa
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486 Index Apoptotic effectors, 192
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488 Index Cell survival (cont.) pro
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490 Index Lung cancer (cont.) physi
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492 Index Proliferation and cell-cy
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494 Index Tumor suppression and pro
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Diacylglycerol Signaling

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