Minarcik robbins 2013_ch3-regen

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REGENERATION HEALING (repair)

Transcript of Minarcik robbins 2013_ch3-regen

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REGENERATION

HEALING (repair)

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LEARNING OBJECTIVES• Review the normal physiology and concepts

of cell proliferation, cell growth, cell “cycle”, and cell differentiation

• Understand the basic factors of tissue regeneration

• Understand the relationships between cells and their ExtraCellular Matrix (ECM)

• Understand the roles of the major players of healing---angiogenesis, growth factors (GFs), and fibrosis

• Differentiate 1st & 2nd intention healing

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DEFINITIONS:•REGENERATION: Growth of

cells to replace lost tissues

•HEALING: A reparative tissue response to a wound, inflammation or necrosis, often leads to fibrosis

• GRANULATION TISSUE

• “ORGANIZING” INFLAMATION

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REGENERATION• Replacement of lost structures

• Is dependent on the type of normal turnover the original tissue has

• Can be differentiated from “compensatory” growth

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HEALING (repair)• Needs a wound, inflammatory process, or

necrosis• Many disease appearances anatomically are

the result of “healing” such as atherosclerosis

• Often ends with a scar• Fibrosis, as one of the 3 possible outcomes

of inflammation, follows “healing”• Requires a connective tissue “scaffold”• Fibrosis occurs in proportion to the damage

of the ECM

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Cell Population Fates• PROLIFERATION

– Hormonal, especially steroid hormones– eg., EPO, CSF

• DIFFERENTIATION*– UNIDIRECTIONAL, GAIN (specialization) and

LOSS (versatility)

• APOPTOSIS

*One of the most KEY concepts in neoplasia

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ECTODERM

MESODERM

ENTODERM

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CELL CYCLE• G0

– Quiescent (not a very long or dominent phase)

• G1– PRE-synthetic, but cell GROWTH taking place

• S– Cells which have continuous “turnover” have

longer, or larger S-phases, i.e., DNA synthesis– S-phase of TUMOR CELLS can be prognostic

• G2– PRE-mitotic

• M (Mitotic:, P,M,A,T, Cytokinesis)

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CELL TYPES• Labile: eg., marrow, GI

• Quiescent: liver, kidney

• NON-mitotic: neuron, striated muscle

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STEM CELLS(TOTIPOTENTIAL*)

•EMBRYONIC

•ADULT

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EMBRYONICSTEM CELLS

• DIFFERENTIATION

• KNOCKOUT MICE (mice raised with specific gene defects)

• REPOPULATION OF DAMAGED TISSUES, in research

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ADULTSTEM CELLS

• MARROW (HEMOCYTOBLAST)

(hematopoetic stem cells)

• NON-MARROW

(RESERVE)

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MARROW STROMAL CELL

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ADULT TISSUE DIFFERENTIATION and REGENERATION PARALLELS EMBRYONIC

DEVELOPMENT

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Growth Factors (GFs)• Polypeptides

• Cytokines

• LOCOMOTION

• CONTRACTILITY

• DIFFERENTIATION

• ANGIOGENESIS

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Growth Factors (GFs)• Epidermal

• Transforming (alpha, beta)

• Hepatocyte

• Vascular Endothelial

• Platelet Derived

• Fibroblast

• Keratinocyte

• Cytokines (TNF, IL-1, Interferons)

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CELL PLAYERS (source AND targets)

• Lymphocytes, especially T-cells

• Macrophages

• Platelets

• Endothelial cells

• Fibroblasts

• Keratinocytes

• “Mesenchymal” cells

• Smooth muscle cells

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E (Epidermal) GF• Made in platelets, macrophages

• Present in saliva, milk, urine, plasma

• Acts on keratinocytes to migrate, divide

• Acts on fibroblasts to produce “granulation” tissue

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T (Transforming) GF-alpha• Made in macrophages, T-cells,

keratinocytes

• Similar to EGF, also effect on hepatocytes

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H (Hepatocyte) GF• Made in “mesenchymal” cells

• Proliferation of epithelium, endothelium, hepatocytes

• Effect on cell “motility”

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VE (Vascular Endothelial) GF

• Made in mesenchymal cells

• Triggered by HYPOXIA

• Increases vascular permeability

• Mitogenic for endothelial cells

• KEY substance in promoting “granulation” tissue

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PD (Platelet Derived) GF

• Made in platelets, but also MANY other cell types

• Chemotactic for MANY cells

• Mitogen for fibroblasts

• Angiogenesis

• Another KEY player in granulation tissue

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F (Fibroblast) GF• Made in MANY cells

• Chemotactic and mitogenic, for fibroblasts and keratinocytes

• Re-epithelialization

• Angiogenesis, wound contraction

• Hematopoesis

• Cardiac/Skeletal (striated) muscle

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T (Transforming) GF-beta• Made in MANY CELLS

• Chemotactic for PMNs and MANY other types of cells

• Inhibits epithelial cells

• Fibrogenic

• Anti-Inflammatory

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K (Keratinocyte) GF• Made in fibroblasts

• Stimulates keratinocytes:–Migration

–Proliferation

–Differentiation

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I (Insulin-like) GF-1• Made in macrophages, fibroblasts

• Stimulates:– Sulfated proteoglycans

– Collagen

– Keratinocyte migration

– Fibroblast proliferation

• Action similar to GH (Pituitary Growth Hormone)

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TNF (Tumor Necrosis Factor)

• Made in macrophages, mast cells, T-cells

• Activates macrophages (cachexin)

• KEY influence on other cytokines

• The MAJOR TNF is TNF-alpha

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Interleukins• Made in macrophages, mast cells,

T-cells, but also MANY other cells

• MANY functions:– Chemotaxis

– Angiogenesis

– REGULATION of other cytokines

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INTERFERONS• Made by lymphocytes,

fibroblasts

• Activates MACROPHAGES

• Inhibits FIBROBLASTS

• REGULATES other cytokines

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SIGNALING• Autocrine (same cell)

• Paracrine (next door neighbor) (many GFs)

• Endocrine (far away, delivered by blood, steroid hormones)

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TRANSCRIPTION FACTORSHEPATIC

REGENERATION

TNFIL6HGF

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ExtraCellular Matrix (ECM)• Collagen(s) I-XXVII

• Elastin

• Fibrillin

• CAMs (Cell Adhesion Molecules)– Immunoglobulins, cadherins, integrins,

selectins

• Proteoglycans

• Hyaluronic Acid

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ECM• Maintain cell differentiation

• “Scaffolding”

• Establish microenvironment

• Storage of GF’s

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Collagen One - bONE (main component of bone)

Collagen Two - carTWOlage (main component of cartilage)

Collagen Three - reTHREEculate (main component of reticular fibers)

Collagen Four - FLOOR - forms the basement membrane

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GENETIC COLLAGEN DISORDERS• I OSTEOGENESIS IMPERFECTA, E-D• II ACHONDROGENESIS TYPE II• III VASCULAR EHLERS-DANLOS• V CLASSICAL E-D• IX STICKLER SYNDROME• IV ALPORT SYNDROME• VI BETHLEM MYOPATHY• VII DYSTROPHIC EPIDERMOLYSIS

BULLOS.• IX EPIPHYSEAL DYSPLASIAS• XVII GEN. EPIDERMOLYSYS BULLOSA• XV, XVIII KNOBLOCH SYNDROME

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DEFINITIONS:•REGENERATION:

Growth of cells to replace lost tissues

•HEALING: A reparative tissue response to a wound, inflammation or necrosis

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HEALING• FOLLOWS INFLAMMATION• PROLIFERATION and MIGRATION of

connective tissue cells• ANGIOGENESIS (Neovascularization)• Collagen, other ECM protein synthesis• Tissue Remodeling• Wound contraction• Increase in wound strength (scar = fibrosis)

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ANGIOGENESIS(NEOVASCULARIZATION)

• From endothelial precursor cells

• From PRE-existing vessels

• Stimulated/Regulated by GF’s, especially VEGF

• Also regulated by ECM proteins• aka, “GRANULATION”, “GRANULATION

TISSUE”, “ORGANIZATION”, “ORGANIZING INFLAMMATION”

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WOUND HEALING• 1st INTENTION

• Edges lined up

• 2nd INTENTION

• Edges NOT lined up

• Ergo….

• More granulation

• More epithelialization

• MORE FIBROSIS

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“HEALTHY” Granulation Tissue

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FIBROSIS/SCARRING• DEPOSITION OF COLLAGEN by

FIBROBLASTS

• With time (weeks, months, years?) the collagen becomes more dense, ergo, the tissue becomes “STRONGER”

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Wound RETARDING factors(LOCAL)

• DECREASED Blood supply• Denervation

• Local Infection

• FB

• Hematoma

• Mechanical stress

• Necrotic tissue

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Wound RETARDING factors(SYSTEMIC)

• DECREASED Blood supply• Age

• Anemia

• Malignancy

• Malnutrition

• Obesity

• Infection

• Organ failure