1. Causes Of Cell Injury/death Flashcards
Name different causes of cell injury.
- Hypoxia
- Physical agents, e.g. Trauma, temperature extremes, radiation.
- Chemical agents and drugs, e.g. Alcohol, illicit/therapeutic drugs, high concentrations of oxygen, glucose or salt.
- Infection
- Immune mechanisms
- Dietary insufficiencies/excesses.
- Genetic abnormalities
What is the difference between hypoxia and ischaemia?
Hypoxia = decreased oxygen supply
Ischaemia = decreased blood supply (so decreased oxygen + other nutrients)
Name and explain the different causes of hypoxia.
- Hypoxaemic hypoxia: arterial content of oxygen is low
- reduced inspired pO2 at altitude
- reduced absorption secondary to lung disease
- Anaemic hypoxia: decreased ability of haemoglobin to carry oxygen
- anaemia
- carbon monoxide poisoning
- Ischaemic hypoxia: interruption to blood supply
- blockage of a vessel
- heart failure
- Histiocytic hypoxia: inability to utilise oxygen in cells due to disabled oxidative phosphorylation enzymes
- cyanide poisoning
Give examples of cell types that are more or less sensitive to hypoxia.
Neurones are very sensitive - few minutes
Fibroblasts are less sensitive - hours to 1 day
In which 2 ways can the immune system damage the body’s cells?
- Hypersensitivity reactions - host tissue is injured secondary to an overly vigorous immune reaction (e.g. Urticaria)
- Autoimmune reactions - failure to distinguish self from non-self (e.g. Grave’s disease of thyroid)
Which cellular components are most susceptible to injury?
- Membranes (plasma and intracellular)
- Mitochondria (oxidative phosphorylation)
- Nucleus (DNA)
- Proteins (structural and enzymes)
Describe the reversible molecular effects of hypoxia.
- Mitochondria use up O2 supplies so fall in oxidative phosphorylation…
- So decreased ATP levels (to 5-10%):
- Halting of Na+/K+ ATPase… K+ efflux and influx of Ca2+, Na+ and H2O… cellular swelling, microvilli loss, blebbing, ER swelling, myelin figures.
- Increased glycolysis… decreased glycogen and fall in pH… clumping of nuclear chromatin.
- Detachment of ribosomes… decreased protein synthesis… lipid deposition.
Describe the irreversible molecular effects of prolonged hypoxia.
- Large calcium cytosolic influx from extracellular environment, mitochondria and ER… activation of :
- ATPase - decreased ATP
- phospholipase - decreased phospholipids and disruption of membranes
- protease - disruption of membrane and cytoskeleton proteins
- endonuclease - nuclear chromatin damage - Enzymes leak out of lysosomes and attack cytoplasmic components.
- Cell dies, possible as a result of bleb bursting
What are free radicals/reactive oxygen species? Name 3 that are of particular biological significance in cells.
- Atoms with single unpaired electron in outer orbit - unstable configuration which reacts with other molecules, often producing further free radicals.
- Hydroxyl (OH.), superoxide (O2-), hydrogen peroxide (H2O2).
Name different sources of free radicals.
Endogenous:
- normal metabolic reactions (e.g. Oxidative phosphorylation in MT)
- inflammation (oxidative burst of neutrophils)
Exogenous:
- radiation (splits water to produce hydroxyl)
- drugs and chemicals (e.g. Metabolism of paracetamol or carbon tetrachloride by P450 in liver)
- contact with unbound metals in body: iron (Fenton reaction) and copper
Name 2 diseases in which free radical damage occurs as a result of contact with unbound metals in the body.
Haemachromatosis (iron excess)
Wilson’s disease (copper excess)
How do free radicals injure cells?
- Cause lipid peroxidation of cell membranes… generation of further free radicals (= autocatalytic chain reaction).
- Oxidise proteins, carbohydrates and DNA… causes denaturation, breakage or cross-linking… mutagenic and so carcinogenic,
As a result of what are free radicals usually produced?
- Chemical and radiation injury
- Ischaemia-reperfusion injury
- Cellular ageing
- High oxygen concentration
Which defence system protects against free radicals and what does this consist of?
Anti-oxidant system:
- Enzymes
- Superoxide dismutase catalyses reaction from hydroxyl to hydrogen peroxide (significantly less toxic).
- Catalases and peroxidases complete process of free radical removal (H2O2 to O2 + H2O).
- Free radical scavengers - neutralise free radicals: vitamins A, C and E.
- Storage proteins - sequester transition metals in extracellular matrix (e.g. Transferrin and ceruloplasmin sequester iron and copper).
Name a defence pathway that protects the cell against several types of injury.
Heat shock proteins (Hsp), e.g. Ubiquitin, which guide mis-folded proteins through refolding process.
