Apoptosis 1 PDF

Summary

This document is a presentation on apoptosis, a type of programmed cell death. It discusses the types and mechanisms involved in apoptosis, focusing on the intrinsic pathway and the role of proteins like p53 and members of the Bcl2 family. The presentation includes diagrams and figures to aid understanding.

Full Transcript

Apoptosis 1.
Judit Bátor

2024.
Types of cell death
Not regulated: necrosis
The damaging effect cannot be survived ( = pathological circumstances)
E.g. heat, mechanical stress, irradiation, chemicals, anoxia
Regulated:
The damaging effect could be survived (heat, irradiation, chemicals, hypoxia,
growth factor withdrawal, etc.), but the cell kills itself for the good of the
organism/other cells
Active cell death, signal transduction, ATP are required
More types exist (more, than 10)
Autophagy: role of lysosomes; pathological stimuli activate it
Apoptosis: may be activated under physiological conditions (healthy cell is not any more
needed), or under pathological circumstances
(see also: physiological and pathological role of apoptosis)
This type of cell death should be induced during chemo- and radiotherapy of tumor cells
Morphological features of
apoptosis and necrosis
Necrosis Apoptosis
Stimuli always pathological Physiological or pathological

Appearance Group of cells Single cells or groups of cells

Involved cells swell shrink, later apoptotic bodies
are formed
Cell nucleus Karyolysis Karyopyknosis
Karyorrhexis

DNA Random cleavage internucleosomal DNA cleavage

Cell membrane Early damaged Remains intact
Externalisation of phosphatidyl-
serine
organelles Damaged Remain intact
Result Content of cells will Apoptotic bodies
be released to their
environment
Inflammation yes no
Phagocytosis no yes
Molecular Cell Biology Syllabus
Alterations of nucleus
(see Syllabus, ”The pathology of cell nucleus” chapter)

Apoptosis:
Necrosis: Karyolysis Karyopyknosis
(lysis of nucleus) (shrinkage of nucleus, chromatin
condensation), followed by
Karyorrhexis
(fragmentation of nucleus) Molecular Cell Biology Syllabus
Signal transduction of apoptosis

Intrinsic pathway: mitochondrial pathway
Cell detects inside the damaging effect
E.g. DNA damaging effect of irradiation, chemotherapeutical agents, free
radicals
Extrinsic pathway: receptor-mediated apoptosis
So-called death ligands bind to their receptors
Intrinsic pathway:
p53 protein plays an important role
transcription factor (but it has probably
also functions independent of transcription)
Always synthesized - but also
broken down (by ubiquitin-
proteasome system) in healthy cells
It is activated and stabilized for DNA
damage
It’s function:
Lesser DNA-damage: stops cell cycle,
induces repair enzymes
Larger DNA-damage: induces
apoptosis
Induces proapoptotic proteins, among
them proapoptotic BH3-only Bcl2 family
members
Molecular Cell Biology Syllabus
Intrinsic pathway:
proteins of Bcl2 family play an important role
Name: abbreviation of ‚B-cell lymphoma’
Members:
Antiapoptotic or
Proapoptotic role

Antiapoptotic Bcl2 family members
Contain BH1, BH2, BH3, BH4 domains (BH is abbreviation of ‚Bcl-2 homologous’)
Are always present and active
In healthy cells they bind to proapoptotic multidomain family members thereby
inactivating them
In apoptotic cells they prefer the binding to the newly synthesized/activated ”BH3-
only” family members
E.g. Bcl-2, Bcl-xL

Molecular Cell Biology Syllabus
Bcl2 family (2)
Proapoptotic family members
Proapoptotic multidomain family members
Contain BH1,BH2, BH3 domains
Always present, but in healthy cells inactivated by binding of
antiapoptotic Bcl-2 family members to them
Activation: released by antiapoptotic family members, they
bind with each other to form pores in the outer membrane of
mitochondria.
Certain proteins are released to the cytosol through these pores (e.g.
cytochrome c).
E.g. Bax

Molecular Cell Biology Syllabus
 Bcl2 family (3)
Proapoptotic family members
Proapoptotic ”BH3-only” proteins
Contain only BH3 domain (BH1,2,4 not)
Are synthesized or activated as a result of apoptotic stimuli
Bind antiapoptotic Bcl-2 family members (are preferred by them)
E.g. Bad, Puma

Molecular Cell Biology Syllabus,
Caspases: important in the effector phase of
apoptosis
Protein family
Name: cysteinyl-aspartases (Cysteine containing proteases, which cleave
after an aspartic acid residue)
Always present, also in healthy cells
in inactive form: called procaspases
Activation happens by cleavage as a result of apoptotic signal transduction
procaspase → caspase
Autocleavage or cleaved by a different caspase
Caspase-cascade
Active form: cleaves target proteins (very specific cleavage, does not chop
into small pieces, but activates/inactivates them)
Initiator caspases: cleave the effector caspases (e.g. caspase 8 and caspase 9)
Effector caspases: cleave many different target proteins (e.g. caspase 3)
 Intrinsic pathway 1.
e.g. DNA damage
Activation of p53→ Induction of „BH3-only”
Bcl2 family members, which bind to the
antiapoptotic Bcl2 family members
Multidomain-proapoptotich family members
are released (from antiapoptotic members),
form pores in mitochondrial outer membrane
Through these pores cytochrom C is released
to cytosol
Cytochrom C forms a complex with Apaf1
(apoptosis-activating factor 1) and procaspase
9 (name of the complex: apoptosome)

Molecular Cell Biology Syllabus, modified
 Intrinsic pathway 2.
Procaspase 9 (initiator caspase) in the
apoptosome cleaves itself to active caspase 9
Cleaves effector caspases, e.g. procaspase 3
caspase 3 cleaves different target proteins:
Signal transduction proteins (may be activated or
inactivated, depending on the cleaved protein)
Repair proteins are inactivated
Nuclease is activated
Proteins of cytoskelett (cell shape changes)
Lamin proteins (shrinkage of nucleus,
condensation of chromatin
”death by thousands of cuts”
Apoptotic bodies are formed (membrane
bounded vesicles containing fragments of
cytoplasm and cell nucleus)
Which are phagocyted by neighboring cells.
Molecular Cell Biology Syllabus, modified
Thank you for your attention!