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The story of Src What Viruses and Nobel Laureates Taught Us About Cancer.

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1 The story of Src What Viruses and Nobel Laureates Taught Us About Cancer

2 Before We Start--remember you’ll be reading and be ready to discuss a paper next week How to read a Paper 1) What is the question addressed here? 2) How did the researchers address this question? 3) What are the results? 4) What are the conclusions? for the paper, as well as for each figure

3 Peyton Rous discovered a virus that causes cancer in chickens No thank you!

4 The Rous Sarcoma Virus (RSV) A virus can transform a normal cell into a tumor

5 The Rous Sarcoma Virus (RSV) A virus can transform a normal cell into a tumor Nobel Prize in Physiology or Medicine 1966

6 The Rous Sarcoma Virus (RSV) A virus can transform a normal cell into a tumor But what’s a virus???

7 Yamagiwa Chemicals can directly induce cancer Viral Infection Out Chemical Induction In 1920s Carcinogens

8 Howard Temin 30 Years Later: Rebirth of RSV research RSV can transform cells in culture Harry Rubin RSV stock Immortality

9 Studying cancer at the cellular level No contact inhibition on cell division

10 No contact inhibition of cell division Normal Cancer

11 RSV is a retrovirus These viruses make a DNA copy of their RNA genome and insert it into your DNA Alberts et al. Fig. 24-23

12 RSV is a retrovirus These viruses make a DNA copy of their RNA genome and insert it into your DNA Alberts et al. Fig. 24-23 Nobel Prize in Physiology and Medicine 1975 Howard Temin and David Baltimore

13 Your genome is a retrovirus graveyard: living and dead retroviruses make up 8%of your genome, with ~100,000 whole or partial copies! Alberts et al. Fig. 24-23

14 Breakthrough discovery Retroviruses can cause cancer by picking up mutated versions of normal cellular genes Alberts et al. Fig. 24-23

15 The paper that created two Nobel laureates and founded the modern field of Cancer biology

16 Retroviruses can also cause cancer by inserting next to and thus activating the expression of proto-oncogenes wnt-1 gene exons Transcribe to mRNA 5 kilobases Retroviral insertion sites in different tumors Alberts et al. Fig. 22-24

17 Two mechanisms of gene activation by retroviral insertion Lodish et al. Fig. 24-10

18 So, what job does the protein encoded by src do within the cell? The first BIG step: using serum to immunoprecipitate the v-Src protein

19 This led to the discovery that Src is post-translationally modified

20 This led to the discovery that Src is post-translationally modified What’s translation??

21 Protein kinases and protein phosphatases add and remove phosphate groups from target proteins Lodish et al. Fig. 20-5

22 in the presence of P 32 -ATP Src is a kinase Adding labeled ATP to a precipitated Src showed that Src can phophorylate a substrate A substrate is phosphorylated

23 Which amino acids can be phosphorylated? And Why those amino acids??

24 Figure 15-18a Molecular Biology of the Cell (© Garland Science 2008) Src is a Tyrosine Kinase As a kinase, it can affect many cellular events

25 Normally, Src kinase intrinsic activity is low What makes Src so active in transformed cells? Western Blot with antibody that recognizes Tyr phosphorylated proteins

26 The structures of c-src and v-src provided an important clue! Lodish et al. Fig. 24-17

27 Binds peptides phosphorylated on Tyr Binds polyproline motifsPhosphorylates other proteins Src contains three domains that are shared with other proteins

28 Scientists have determined the precise 3-dimensional structure of Src Xu et al. Nature. 1997 385:595-602

29 Tyrosine phosphorylation of the C-terminus creates an intramolecular and inhibitory interaction Lodish et al. Fig. 24-17

30 Src is normally inactive due to intramolecular inhibition Lodish et al. Fig. 24-17

31 From Schwartzenberg, Oncogene 17, 1463-1468 (1998) Activation of Src has multiple consequences

32 Where is Src within cells?

33 This is a covalently attached lipid--what might that mean?

34 Recent work has provided a more detailed model of Src activation Cowen-Jacob et al. Structure 13, 861-871 (2005)

35 Recent work has provided a more detailed model of Src activation Closed = OFF Open = ON Cowen-Jacob et al. Structure 13, 861-871 (2005)

36 Deletion of the C-terminal region leads to activation of v-Src Lodish et al. Fig. 24-17

37 c- Src is a tyrosine kinase What does it do in the cell? What are its targets?

38 Remember, we are still in the late 70s Bishop and Varmus

39 Identifying the targets of Src Myristylation of Src is essential for transformation

40 V = v-Src transfected cells 2A/V = non-myristylated v-Src transfected cells Identifying The Targets of Src Western blotting with anti- phosphotyrosine antibodies p120 catenin: modulates cell- cell adhesion Reynolds et al. MCB (1989)

41 - p120 catenin: modulates cell-cell adhesion Identifying the targets of Src - Cortactin A: regulates actin polymerization - Focal Adhesion Kinase: involved in cell-matrix interactions Few Examples Mike Schaller, ex-UNC

42 Src modulates both cell-cell and cell matrix adhesion: The basics Cell-cell junctions Cell-matrix junctionsBasal lamina

43 Src modulates both cell-cell and cell matrix adhesion: The basics Lodish et al. Fig. 22-2

44 Epithelial cells Basal Lamina Epithelial cells secrete a special ECM called the basal lamina Alberts et al. Fig. 19-54

45 Actin: Green Focal Adhesions (orange) Cells interact with the ECM via Focal adhesions, which also anchor the actin cytoskeleton Alberts et al. Fig. 17-42

46 Focal adhesions are linked to the actin cytoskeleton Alberts et al. Fig. 16-75

47 A complex network of proteins links the focal adhesion to actin and regulates actin polymerization Alberts et al. Fig. 16-75

48 Actin: GreenPhosphotyrosine: Red Focal adhesions Focal adhesions are sites of intense protein tyrosine phosphorylation

49 An oversimplified model of Src function Normal skin cell tightly adherent to ECM Wounding->platelet recruitment-> cell migration and proliferation Alberts et al.

50 Actin Adaptors Integrins Extracellular matrix Migratory growth factors e.g., EGF, PDGF RTKs Src FAK PI-3- kinase Remodel cell-matrix junctions -> cell motility From Jones et al. Eur J. Cancer 36, 1595-1606 (2000) A less oversimplified model

51 - Src binds to phophorylated FAK FAK is recruited by integrins to the membrane and is autophosphorylated - Src changes conformation and becomes active - Src further phosphorylates FAK - Src-FAK phosphorylate target proteins

52 Src and FAK act together to regulate other focal adhesion proteins Src-FAK signals to regulate adhesion turnover Src-FAK active = less adhesion, more migration

53 Cell 1991 64:693-702 Targeted disruption of the c-src proto-oncogene leads to osteopetrosis in mice. Soriano P, Montgomery C, Geske R, Bradley A. If Src is a critical regulator of cell adhesion, what happens to an animal without any Src?

54 Why is this phenotype so modest? Redundancy!! Src has two very close relatives: Fyn and Yes

55 Different Src family kinases work downstream of different receptors Alberts et al. Fig. 23-54

56 Fyn mutant mice are viable but have defects in myelination of brain neurons Yes mutant mice are viable but with subtle changes in B-cell function

57 Src; Fyn; Yes triple mutant mice die at embryonic day 9.5 with multiple defects Wild-type Triple mutant

58 However, triple mutant cells still make focal adhesions

59 However src; fyn; yes (SYF) triple mutant cells fail to migrate! Scratch assay

60 Scientists have determined the precise 3-dimensional structure of Src Active site

61 Scientists have determined the precise 3-dimensional structure of Src Active site SU6656

62 In leukemia, adding Src inhibition to inhibition of the related kinase Abl improves prognosis in phase II trials. It is approved to help get around drug resistance in CML dasatinib Ottmann et al. Blood 110, 2309 (2007)

63 This same Src inhibitor is in Phase II trials for advanced breast cancer and advanced sarcomas dasatinib Ottmann et al. Blood 110, 2309 (2007)

64 Another Src inhibitor is in Phase I/II trials for metastatic pancreatic, breast, ovarian, and prostate cancers Active site AZD0530

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