• Introduction
• 63 min
  1. Drosophila genetics - the first 25 years

  • Prof. Dan Lindsley
• Establishment of the Primary Body Axes
• 28 min
  2. Homeotic genes in Drosophila's bithorax complex - The legacy of Ed Lewis

  • Prof. Francois Karch
• 30 min
  3. Limb development: how Drosophila genetics can be used to understand pattern formation

  • Prof. Konrad Basler
• Cell Type Specification and Organ Systems
• 63 min
  4. From germ cell specification to gonad formation

  • Prof. Ruth Lehmann
• 37 min
  5. Drosophila stem cells

  • Prof. Michael Buszczak
• 46 min
  6. Legacy of drosophila genetics: female germline stem cells

  • Prof. Michael Buszczak
• 34 min
  7. Intestinal stem cell-mediated repair in Drosophila 1

  • Prof. Tony Ip
• 30 min
  8. Intestinal stem cell-mediated repair in Drosophila 2

  • Prof. Tony Ip
• 43 min
  9. The miracle of morphogenesis, cell adhesion, polarity and cytoskeletal regulation

  • Prof. Mark Peifer
• 34 min
  10. Axon guidance in Drosophila

  • Prof. John Thomas
• 35 min
  11. Development and physiology of the heart

  • Prof. Rolf Bodmer
• 37 min
  12. Identification of host defenses in the Drosophila gut using genome-scale RNAi

  • Prof. Dominique Ferrandon
• Genome Organization and Function
• 53 min
  13. The genetic analysis of meiosis in Drosophila melanogaster females

  • Prof. R. Scott Hawley
• 46 min
  14. Genome scale analysis of cellular processes using RNAi

  • Dr. Amy Kiger
• 36 min
  15. Dorsal-ventral patterning of the Drosophila embryo

  • Prof. Mike Levine
• 34 min
  16. Bone morphogenetic protein (BMP) signaling in drosophila: from germline to early embryogenesis

  • Dr. Helena Araujo
• 27 min
  17. Genome-wide pooled CRISPR screen in arthropod cells

  • Prof. Norbert Perrimon
• Behavior
• 40 min
  18. The development of the peripheral nervous system in the fruitfly Drosophila

  • Prof. Hugo Bellen
• 54 min
  19. Genetics of chemosensory transduction: taste and smell

  • Dr. Leslie Vosshall
• 
  20. TRP channels and opsins: universal mediators of sensory biology and behavior

  • Prof. Craig Montell
• 72 min
  21. Cracking the case of circadian rhythms by Drosophila genetics

  • Prof. Jeffrey C. Hall
• 46 min
  22. Sleep in Drosophila

  • Dr. Ralph Greenspan
• 91 min
  23. Drosophila's contribution to the genetics of learning and memory

  • Prof. Tim Tully
• 34 min
  24. Drosophila as a model for drug addiction

  • Prof. Ulrike Heberlein
• Mechanism of Human Disease
• 65 min
  25. Cross-genomic analysis of human disease genes

  • Prof. Ethan Bier
• 56 min
  26. Human neurodegenerative disease: insights from Drosophila genetics

  • Prof. Nancy Bonini
• 21 min
  27. Metastasis of Drosophila tumors

  • Prof. Allen Shearn
• 51 min
  28. Rac-enhanced CAR immunotherapy: RaceCAR

  • Prof. Denise Montell
• 34 min
  29. Control of tissue growth: elucidation of the Hippo signaling pathway

  • Dr. Duojia Pan
• Evolution of Adaptive Novelties
• 56 min
  30. The evolution of morphological novelty

  • Prof. Nipam Patel
• 36 min
  31. The genetic architecture of complex traits: lessons from Drosophila

  • Prof. Trudy Mackay
• Archived Lectures *These may not cover the latest advances in the field
• 25 min
  32. Using gene expression information to provide insights into patterning and differentiation

  • Prof. Angelike Stathopoulos
• 49 min
  33. Regulation of gastrulation in Drosophila

  • Prof. Dr. Maria Leptin
• 31 min
  34. microRNA function in stem cells

  • Prof. Hannele Ruohola-Baker

Printable Handouts

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Navigable Slide Index

1. Introduction
2. Metastasis occur by a variety of mechanisms
3. What is the metastatic phenotype?
4. Lethal giant larvae and brain tumor
5. LGL and distribution of BRAT, PROSPERO
6. Neuroblast development
7. Transplantation of tumor tissue
8. Mutant brain cells proliferate in abdominal cavity
9. Tumor cells are marked with a reporter gene
10. Tumor cells from lgl or brat mutants are invasive
11. There are no gaps in the epithelial sheath
12. Detection of tumor cells beyond epithelial sheaths
13. Tumor proliferation time and micro-metastases
14. lgl and brat tumor cells are not equivalent
15. Neuronal and glial markers expression
16. Micro-metastases derived from the mutants
17. Matrix metalloproteases are involved in metastasis
18. Drosophila's MMPs and TIMP
19. MMP1 accumulation
20. Loss of mmp1 and tumor growth
21. Loss of mmp1 and metastasis of lgl / brat tumors
22. mammals tumor can stimulate host cells MMP
23. brat tumors and host ovaries mmp1 transcript
24. The consequence of inhibiting MMP activity
25. Expression of GFP in host ovary
26. Reduced MMP activity in host ovaries
27. Tumor cells use MMP1 for metastasis
28. utilization MMP by lgl tumor cell
29. utilization MMP by brat tumor cell
30. Metastasis occur by a variety of mechanisms (2)
31. Acknowledgements

Topics Covered

• Recessive lethal mutations of Drosophila cause brain tumors that are metastatic
• Despite their apparent similarities, tumors caused by different mutations have different metastatic properties
• The metastasis of tumors caused by lgl mutations is enhanced by secretion of MMP1 from the tumor cells themselves
• The metastasis of tumors caused by brat mutations is not enhanced by secretion of MMP1 from the tumor cells themselves, but is enhanced by MMP1 that host cells are induced to secrete

Links

Series:

• The Legacy of Drosophila Genetics

Categories:

• Cancer

Therapeutic Areas:

• Oncology

Talk Citation

Publication History

• Published on September 29, 2008
• Reviewed on September 25, 2017

Financial Disclosures

• Prof. Allen Shearn has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.