introduction to pathology lecture 2/ cell...
TRANSCRIPT
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Introduction to pathologylecture 2/ Cell injury
Dr H Awad
2017/18
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Normal cellular state
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• Cells normally maintain a steady state called Homeostasis.
• This means the intracellular environment is kept within a narrow range of physiologic state
• Examples: temperature, pH, chemical reactions, electrolyte concentration, water content… All are regulated and kept constant.
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Homeostasis is a balancing act!
• To keep homeostasis cells participate activelywith their environment and keep changing their metabolic rate, temperature ,..etcdepending on changes in their microenvironment
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Cells and stress!
• If cells are subjected to stresses ( like changes in electrolyte balance) then cells adapt and reach a new homeostatic state that will preserve cell function.
• However if the stress is more severe and is beyond capability of adaptation then this will result in cell injury.
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• Cell injury: at the beginning it is reversible within certain limits
• Then it becomes irreversible.
• Irreversible injury ends in cell death.
• Two types of cell death: necrosis and apoptosis ( more details later)
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Note
• Not all injuries start as reversible then become irreversible
• If the injury is severe enough it will be irreversible even in the early stages.
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Causes of cell injury: anything that can change homeostasis
• Hypoxia and ischemia
• Chemical agents
• Infections
• Immunologic reactions
• Genetic factors
• Nutritional imbalances
• Physical agents
• Aging
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Cellular adaptation to injury
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Adaptation in cells
• Adaptation means: reversible changes in in the number, size, phenotype, metabolic activity or function of cells in response to changes in their environment.
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Adaptation
• Adaptive changes are reversible.: if the insult is removed, things can go back to normal.
• Can be physiologic or pathologic; depending on the cause
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Cells and tissues adapt by four main mechanisms
• Hyertrophy
• Hyperplasia
• Atrophy
• metaplasia
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• Hypertrophy: Increased cell size.
• Hyperplasia: increased number of cells.. Cell division.
• Metaplasia: change from one adult cell type to another
• Atrophy: decreased size.
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Hypertrophy versus hyperplasia
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Hypertrophy
• Increased cell size.
• Due to increased organelles and proteins.
• Increased intracellular synthesis of the proteins and organelles.
Caused by: increased demands, hormones or growth factors.
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Examples of Physiologic hypertrophy
• Uterus during pregnancy… due to oestrogen effect on smooth muscles of the uterus.
• Skeletal muscle in body builders… due to increased demand.
• Note: smooth muscles can divide.. So in the pregnant uterus there is hypertrophy and hyperplasia… whereas skeletal muscle is permanent tissue that can not divide, so there is pure hypertrophy without hyperplasia.
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Physiologic hypertrophy
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Pathologic hypertrophy
• Cardiac enlargement due to hypertension= Hypertensive heart disease
• Pathogenesis.. Two types of signals: mechanical: stretch and trophic: growth factors and androgenic hormones cause the hypertrophy in the cardiac muscle
• Note: the cardiac muscle can not undergo hyperplasia.
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• Cardiac hypertrophy during hypertension results in more contractile force that is needed to meet the demands of the increased pressure
• This works to a certain extent.. But with time hypertrophy can not compensate and degenerate changes occur in the muscle.
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• Why hypertrophy can not compensate forever???
• Maybe because there is limited blood supply and limited mitochondria to provide ATP .. So if there is more tissue than that can be supported by this blood supply and energy then degeneration occurs.
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Pathologic hypertrophy
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Pathologic hypertrophy
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Hyperplasia: increased cell proliferation and division
• Only in tissues that can replicate.
• Can be physiologic or pathologic.
• Occurs due to proliferation of both differentiated cells and stem cells.
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Cell division
• Morphologically: we see mitosis
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Physiologic hyperplasia
• Hormonal: uterus, breast.
• Compensatory: after removal or loss of part of tissue.
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Pathologic hyperplasia
• Due to excess in hormones or growth factors.
• E:g endometrial hyperplasia due to oestrogen-progesterone imbalance.
• Hyperplasia is controlled.. it responds to normal growth stimuli and inhibitors .This differentiates it from cancer because cancer keeps growing regardless of normal growth mechanisms.
• However.. Because hyperplastic tissue divides there is more chance that it will acquire mutations that can lead to cancer. This occurs more in pathologic hyperplasia, because the stimuli are long lived
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Normal endometrium
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Endometrial hyperplasia
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atrophy
• Shrinkage in cell size due to loss of cell substance.
Causes
• decreased work load.
• Loss of innervation
• Loss of endocrine stimulation.
• Aging
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Muscle atrophy
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Brain atrophy
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Atrophy
• Physiologic: endometrial atrophy during menopause
• Pathologic: loss of innervation.
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atrophy
Mechanisms:
• Decreased protein synthesis.
• Degradation of cellular proteins, mainly by ubiquitin- proteasome pathway.. Proteins are attached to ubiquitin which targets them to be degraded by proteasome.
• Autophagy…. Literally means self eating. ( will be discussed later)
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metaplasia
• Adult cell type replaced by another adult cell type.
• The cell type sensitive to a certain stress changes to another type which can better tolerate this particular stress.
• Arise due to reprogramming of stem cells to differentiate along a new pathway.
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Epithelial metaplasia/ example
• Respiratory epithelium which is normally glandular, if exposed to smoking it changes to squamous epithelium, which can cope better with the smoke
• However, this change means we will loose the goblet cells in the columnar glandular epithelium.. So no mucus secretion
• Also we will loose the cilia.. So there is loss of important function happening in metaplastic tissue.
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Respiratory epithelium
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Barrett mucosa
• This is another example of metaplasia
• Normal esophageal mucosa is stratified squamous
• If there is reflux of gastric content into the stomach, the esophageal epithelium changes to glandular.. So it can withstand the acidity.
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Normal oesophageal mucosa
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Metaplastic, Barrett’s mucosa
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Metaplasia in mesenchymal tissue
• Usually pathologic
• Ossification of soft tissue due to injury.
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Metaplasia and cancer
• The stimuli that cause metaplasia if persist for a long time can cause cancer
• So metaplasia is considered premalignant.
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Vitamin A and metaplasia
• Vitamin A is important for epithelial differentiation
• If there is Vitamin A deficiency… metaplasia can happen.. Especiially in the respiratory epithelium.
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