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Programmed Cell Death A genetically controlled cell suicide pathway

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Cell corpse engulfment. Cell-cell signaling between the dying cell and the phagocytic cell ... 7 might involve in cell corpse recognition. What is death ligand? ... – PowerPoint PPT presentation

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Title: Programmed Cell Death A genetically controlled cell suicide pathway


1
Programmed Cell Death A genetically controlled
cell suicide pathway
2
video
3
The Morphology of Apoptosis
  • Cytoplasm shrinks

4
Difference Between Apoptosis and Necrosis
  • Necrosis (pathological cell death) dying cells
    swell and lyse toxic contents leak out and
    result in inflammatory response.
  • Apoptosis (physiological or programmed cell
    death) dying cells shrink, are engulfed and
    degraded by other cells, leave no trace, and
    dont result in harmful outcomes

5
Functions of apoptosis
  • Sculpt body structures, e.g. hand digit

Produced in excess, e.g. extra neurons are
removed by apoptosis during neurogenesis.
6
The Nematode C. elegans As a Model Organism in
the Study of PCD
  • A great genetic system
  • Completely defined cell lineage
  • Study of cell death at a single cell resolution
    in living animals

7
The C. elegans Cell Lineage
z
y
g
o
t
e
A
B
M
S
E
C
D
4
P
8
Cell Death Can Be Studied at a Single Cell
Resolution
P11
X
X
P11aap
Adapted from Sulston and Horvitz, Dev. Bology 56,
110-150, 1977
9
The First Cell Death Mutants Identified in C.
elegans
  • In 1976, J. Sulston first described programmed
    cell death in nematodes and reported the first
    cell death mutant (nuc-1), in which DNA in the
    death cells fail to be degraded.

10
In 1980, E. Hedgecock isolated two cell death
mutants (ced-1 and ced-2) which are pivotal for
identification of the other cell death genes.
What went wrong with the ced-1 mutant?
11
What could go wrong with the ced-1 mutant?
  • a) Apoptotic cells fail to die
  • b) Normal cells die ectopically
  • c) Apoptotic cells fail to be engulfed
  • d) Normal cells are ectopically engulfed
  • e) Cells undergo necrosis
  1. a and b
  2. b and c
  3. c and d
  4. d and e
  5. e and a

ced-1
12
Phenotypic analysis of ced-1 and ced-2 mutants
  1. More cell deaths?
  2. Dying cells cannot be removed or engulfed

How to distinguish these two possibilities?
Follow the cell lineage in the mutant animals
What is next?
13
Suppressor screens ced-3 and ced-4
What are the functions of ced-3 and ced-4?
H. Ellis and R.H. Horvitz
14
What could be the functions of ced-3 and ced-4?
  • ced-3 and ced-4 promote cell corpse engulfment
  • 2) Inhibitors of cell corpse engulfment
  • 3) ced-3 and ced-4 could promote cell deaths
  • 4) ced-3 and ced-4 could inhibit cell death
  • 5) ced-3 and ced-4 could promote necrosis
  1. 1 and 2
  2. 2 and 3
  3. 3 and 4
  4. 4 and 5
  5. 5 and 1

15
What are the functions of ced-3 and ced-4?
  • ced-3 and ced-4 promote cell corpse engulfment?
  • Then the mutations must be increase-of-function
  • 2) Inhibitors of cell corpse engulfment?
  • Then the mutations should be loss-of-function
  • 3) ced-3 and ced-4 could promote cell deaths
  • Then the mutations should be loss-of-function

How to distinguish 2) and 3)?
16
  • Lineage analysis suggest
  • Many cells that normally die now survive
  • ced-3 and ced-4 are involved in cell killing
  • How do ced-3 and ced-4 kill the cells?
  • Cells die by murder?
  • Cells die by suicide?
  • cells die by aging?
  • Cells die because of injuries?
  • Cells die by sickness?

17
Cells Die by Suicide Rather Than Murder
  • Yuan and Horvitz demonstrated by mosaic analysis
    that ced-3 and ced-4 function in the dying cells
    to kill.
  • ced-3 encodes a protein with homology with IL-1b
    converting enzyme (ICE), a cysteine protease.
  • ced-4 encodes a protein similar to apoptotic
    protease-activating factor (Apaf-1).

18
cps-6
ceh-30
CEM cells
psr-1
wah-1
19
Caspases Are Cell Death Executors
  • Yuans group using cell culture experiments
    showed ICE and CED-3 can both kill in mammalian
    cells
  • CED-3/ICE define a family of cysteine proteases,
    named caspases (aspartate-specific proteases),
    which so far has 16 family members
  • A caspase is first synthesized as an inactive
    protease precursor and later activated by
    specific proteolysis at specific aspartate
    residues.

20
Caspase Family
caspase
Adapted from Thornberryand Lazebnik, Science 281,
1312-1216, 1998
21
Stucture of Caspase-3 (CPP32)
Adapted from Thornberryand Lazebnik, Science 281,
1312-1216, 1998
22
Activation of Caspases
1) By self-activation
2) By another cysteine protease or caspase
23
Programmed Cell Death
The biochemical basis
24
How Are Caspases Activated
  • Xiao-dong Wang first set up an in vitro cell-free
    system to study the caspase activation process
  • His group found that dATP can trigger caspase-3
    activation in S100 Hela cell extracts.

25
Purification of Caspase Activating Factors
S100dATP
Pinkish protein
Apaf-2 (Cytochrome C)
26
Apaf-1 Is Similar to CED-4
Adapted from Zou et al. Cell 86 147-157, 1997
27
Model for Caspase Activation
Adapted from Zou et al. Cell 86 147-157, 1997
28
Discovery of Bcl-2
  • In 1986, three groups independently cloned bcl-2
    oncogene. bcl-2 oncogene causes follicular
    lymphoma and is a result of chromosome
    translocation t(1418 that has coupled the
    immunoglobulin heavy chain locus to a chromosome
    18 gene denoted bcl-2
  • In 1988, Vaux, Cory, and Adams discovered bcl-2
    oncogene causes cancer by inhibiting lymphocyte
    cell deaths, providing the first evidence that
    cancer can result from inhibition of cell death
  • 1990, Stanley Korsmyers group showed Bcl-2
    localized to mitochondria

29
C. elegans ced-9 Gene Is a Functional Homologue
of Bcl-2
  • A gain-of-function mutation in ced-9 protects
    against all cell deaths in nematodes, while
    loss-of-function mutations cause massive ectopic
    cell deaths
  • ced-9 encodes a protein similar to Bcl-2
  • Bcl-2 inhibits cell death in nematodes and can
    partially substitute for ced-9
  • CED-9 is localized at mitochondria

30
Bcl-2/ced-9 Define a Family of Cell Death
Regulators
  • Korsmyers group purified a protein, Bax, that
    associates with and modulates the activity of
    Bcl-2. Bax by itself can also cause apoptosis in
    a Bcl-2-independent and caspase-independent
    manner.
  • Thompsons group identified a gene, named bcl-x,
    which can be alternatively spliced to generate
    two proteins that have opposite functions in
    apoptosis. The long form (Bcl-xL) inhibits
    apoptosis and the short form (Bcl-xs) cause cell
    death.
  • Korsmyers group identified another
    Bcl-2-interacting and death inducing-protein,
    Bid, which only has one Bcl-2 homology domain
    (BH3).
  • Subsequently, more Bid-like death-inducing
    proteins were identified, all of which has only
    one BH3 domain. This protein family was called
    BH3-only Bcl-2 subfamily.
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