Inflammation (acute and chronic); gross and microscopic appearance. Phagocytosis, cells engaged in
inflammation, chemical mediators of inflammation
Markéta Hermanová

General features of inflammation
nA benefitial host response to foreign invadors and necrotic tissue; but itself capable of causing
tissue damage
n
nMain component of inflammation: vascular reaction (vascular and exudative phase) and a cellular
response (activated by mediators of inflammation derived from plasma protein and various cells)
n
nInflammatory response (5 Rs):
-Recognition of the injurious agent
-Recruitment of leukocytes
-Removal of the agent
-Regulation of the response
-Resolution (repair)
n
nOutcome of acute inflammation:
-Elimination of the noxious stimulus, decline of the reaction, resolution-repair
-Persistent injury resulting in chronic inflammation
-Extensive destruction of the tissue resulting in scarring

Acute inflammation: rapid response to injury or microbes and other foreign substances
nStimuli for acute inflamation:
nInfections (bacterial, viral, fungal, parasitic)
nTrauma and physical and chemical agents
nTissue necrosis (e.g. ischamic infarctions)
nForeign bodies
nImmune reactions (=hypersensitivity reactions) against environmental substances or against self
tissues → immune-mediated inflammatory disease

Macroscopis appearance of acute inflammation (Celsus signs)
nRedness (rubor)
nHeat (calor)
nSwelling (tumor)
nPain (dolor)
nLoss of function (function laesa)

Early stages of acute inflammation
nChanges in vascular caliber and flow
-vasodilatation – induced by chemical mediators (e.g. histamin) – causes erythema and stasis
n
nIncreased vascular permeability and formation of the protein rich fluid exudate
-induced by histamine, kinins, … → gaps between endothelial cells (by direct or leukocyte induced
injury, by increased passage through the epithelium)
n
nFormation of the cellular exudate
-emigration of the neutrophils polymorphs into the extravascular space)
n
nResponses of lymphatic vessels
n-    increased lymph flow; secondary (reactive) lymphangitis, lymphadenitits

n
extravasation_of_leukocytes


Leukocyte recruitment to sites of inflammation
nLeukocytes recruited from the blood into extravascular tissues – migrate to the site of infection
or tissue injury – are activated to perform their functions
n
nLeukocyte recruitment – multistep process:
-Margination, loose attachment to and rolling on endothelium (selectins)
-Firm attachment to endothelium (integrins)
-Migration through inter-endothelial spaces – diapedesis (chemokines)
-Migration in interstitial tissues toward chemotactic stimulus – chemotaxis
-
nCytokines produced by macrophages and other cells (TNF, IL-1) promote expression of selectins and
integrins ligands on endothelium; promote directional migration of leukocytes
n
nNeutrophils predominate in the early inflammatory infiltrate and are later replaced by macrophages

Leukocyte recruitment to sites of inflammation



Chemotactic stimuli
nBacterial products
nCytokines (chemokine family)
nComponents of complement system (C5a)
nProducts of lipooxygenase pathway (LTB4)
n
n

Leukocyte effector function
nLeukocytes eliminate microbes and dead cells by phagocytosis (with destruction on phagolysosomes)
nDestruction caused by free radicals (ROS, NO) generated in activated leukocytes and lysosomal
enzymes
nEnzymes and ROS may be released into the extracellular environment
nInflammation is also capable of damaging normal tissues (the pathologic consequences of
inflammation)

Phagocytosis
nRecognition and attachment of the particle to the ingesting leukocyte
n
nEngulfment , with subsequent formation of phagocytic vacuole
n
nKilling and degradation of the ingested material
n

16-08a_phagocytosis_1
Phagocytosis
n

Cells involved in inflammation – components of cellular exudate
nLeukocytes – neutrophils
nEosinophils, basophils
nLymphocytes
nPlasma cells
nMacrophages
nHeparinocytes, mast cells
nPlatelets
nFibroblasts
nErythrocytes
PBBasophil
basophil
lymphocyte
Histiocyte-100x-website-arrow
Macrophages - histiocytes
Mast-cell-and-basophil-100x-website-arrow
Mast cell
Plasma cell
Plasma cell
eo104le_eosinophil ly100le_lymphocyte th100le_platelet

Activation of macrophages
M1
M2
M1
M2

T and B lymphocytes
obr 3 B- a T- a makrof.gif obr 2 - T-makrofágy.jpg


Mediator
Source
Principal action
Cell-derived
Histamine
Mast cells, basophils, platelets
VD, ↑permeability, ↑endotel. activation
Serotonine
Platelets
VD, ↑permeability
Prostaglandins
Mast cells, leukocytes
VD, pain, fever
Leukotriens
Mast cells, leukocytes
↑permeability,CHT,leu adhesion+activ.
Platelet-activating factor
Leukocytes, endothelial cells
VD, ↑P, leu adhesion+activ., CHT,degranulation,...
Nitric oxide
Endothelium, macrophages
vascular SM relax., microbes killing
Cytokines (TNF, IL-1)
Leukocytes
↑endotel. activation, systemic acute phase damage
Reactive oxygen species
Macrophages, lymphocytes,..
Microbes killing,tissue damage
Chemokines
Leukocytes, macrophages
CHT, leu activation
Plasma protein-derived
Complement
Plasma (produced in liver)
Chemotaxis,opsonization,VD
Kinins
Plasma
↑permeability, VD, pain,…
Proteases activated during coagulation
Plasma
Endothelial activation, leukocyte recruitment

Arachidonic acid metabolites (Eicosanoids)
Action
Eicosanoid
Vasodilatation
PGI2, PGE1, PGE2, PGD2
Vasoconstriction
Thromboxane A2, leukotrienes C4, D4, E4
Increased vascular permeability
Leukotrienes C4, D4, E4
Chemotaxis, leukocyte adhesion
Leukotrienes B4

The lipooxygenase and cyclooxygenase pathway. Membrane phospolipids are converted to arachidonic
acid through the action of phospolipases, which is further metabolised through cyclooxygenase and
lipooxygenase pathways. The cyclooxygenases convert the arachidonic acid to unstable
cylcloendoperoxides, which are converted to prostaglandins, prostacyclin and thromboxanes. The
lipoxygenases metabolise arachidonic acid through hydroperoxyeicosatetraenoic acids (HPETEs) to
leukotrienes.

Major cell-derived mediators of inflammation – summary:
nVasoactive amines: histamine, serotonine; VD, ↑permeability
n
nArachidonic acid metabolites: prostaglandines and leukotriens; vascular reaction, chemotaxis,…
n
nCytokines: IL-1, TNF, chemokines,…; multiple effects in leukocytes recruitment and migration
n
nReactive oxygen species: tissue damage, microbial killing
n
nNitric oxide: VD, microbial killing
n
nLysosomal enzymes: microbial killing, tissue damage
n

Plasma protein-derived mediators of inflammation
nComplement proteins:
n    activation of complement→generation of multiple breakdown products→chemotaxis, opsonization,
phagocytosis, cell killing
n
nCoagulation proteins:
n    activated factor XII triggers: clotting, kinin and complement cascades, fibrinolytic system
n
nKinins:
n     produced by proteolytic cleavage of precursors: mediate vascular reaction, pain
n

Defects in leukocyte function
nBone marrow suppression – decreased leukocyte numbers
nMetabolic diseases (DM – abnormal leukocyte function)
nMalignancy, sepsis, immunodeficiencies, leukemia, anemia, malnutrition, hemodialysis
nGenetic disorders:
-Defects in leukocyte adhesion and migration through endothelium, defective phagocytosis and
generation of an oxidative burst (LAD-1, LAD-2: absence of sialyl-Lewis X (oligosaccharide on
leukocytes that binds to selectins on activated endothelium))
-Defects in microbicidal activity (chronic granulomatous disease, AR, X-linked – genetic defect
responsible for lack of ROS; MPO deficiency)
-Defects in phagolysosome formation (Chediak-Higashi syndrome – AR, disordered intracellular
trafficing to organelles)
-
-
n

Classification of inflammation:
nacute
nchronic
n
nGranulomatous (specific)
nnon-granulomatous (non-specific)
n

Non-specific inflammation
n  (leucocytes, lymphocytes, macrophages; non-specific granulation tissue):
n
-Alterative
-Exsudative
-Proliferative
n

Inflammation – microscopic appearance
ðALTERATION:
n tissue damage - regressive changes, necrosis
n
ðEXUDATION:
n vascular leakage of protein-rich fluid and blood cells
n

Inflammation – microscopic appearance
ðPROLIFERATION:
n proliferation of fibroblasts and capillaries
n formation of granulation and fibrous tissue
û
ðIMMUNE RESPONSE:
n antigen presentation
n T and B-lymphocytes reaction
n production of antibodies by plasma cells
n memory cells

Morphologic patterns of acute inflammation
nSerous inflammation
nCatarrhal inflammation
nFibrinous inflammation; pseudomembranes, ulcers
nHaemorrhagic inflammation
nNon-suppurative (lymphoplasmocytic) inflammation
nSuppurative (purulent) inflammation, abscess
nNecrotizing (gangrenous) inflammation
n

Non-suppurative inflammation – lymphoplasmocytic – interstitial myocarditis
myokarditis 40x myokarditis 200x


Suppurative (purulent) inflammation:
purulent meningitis and absceding bronchopneumonia
meningitis1 plíce povrch abscesy

Fibrinous pericarditis.
perikarditis 20x plíce 100x


Chronic inflammation
nChronic inflammation developing from acute inflammation (e.g. chronic osteomyelitis,…)
n
nPrimary chronic inflammation
-Resistance of infective agents to phagocytosis and intracellular killing (tbc, leprosy,
brucellosis,…)
-Foreign body reactions
-Some autoimmune diseases
-Specific diseases of unknown etiology (IBD,…)
-Primary granulomatous diseases (sarcoidosis, reaction to beryllium,…)
n

Chronic inflammation
nProlonged duration – prolonged host response to persistent stimulus
n→ active inflammation+tissue injury+healing
n
nInfiltration with mononuclear cells (macrophages, plasma cells, lymphocytes)
n
nTissue destruction (by products of the inflammatory cells)
n
nRepair (new vessel proliferation and fibrosis)

Growth factors involved in regeneration and repair associated with inflammation
nEpidermal growth factor (EGF)
n(regeneration of epithelial cells)
nTransforming growth factor alpha and beta (TGF)
n(regeneration of epithelial cells)
nPlatelet-derived growth factor(PDGF)
n(stimulation of fibroblasts proliferation, collagen synthesis)
nFibroblast growth factor(FGF)
n(stimulation of fibroblasts proliferation, angiogenesis, regeneration of epithelial cells)
nInsulin-like growth factor (IGF-1)
n(synergistic effect with othe growth factors)
nTumor necrosis factor (TNF)
n(stimulation of angiogenesis)

Granulation tissue:
(new vessels proliferation and fibrosis)
HE40x

Granulation tissue
nFormation of granulation tissue = major repair instrument
n
n In:
n healing of wounds, fractures, ulcers; organisation of necrosis, thrombus, and haematoma
n
n Gross:
n soft red tissue, granular surface (capillary loops)
n
nMicro:
n fibrin fibers
n inflammatory reaction
n fibroblasts, myofibroblasts
n starting collagen fibers  production
n proliferating capillaries – angiogenesis
n later intercellular matrix + tissue remodeling, retraction – scar formation
n
n
n
n

Macroscopic apperance of chronic inflammation
nChronic ulcer
nChronic abscess cavity
nThickening of the wall of a hollow viscus
nGranulomatous inflammation
nFibrosis
n

Chronic peptic ulcer in stomach.
he40x


Microscopic features of chronic inflammation
nExudation not prominent
nProduction of new fibrous tissue from granulation tissue
nContinuing destruction of the tissue+regeneration+repair
nCellular reaction in chronic inflammation
-macrophages, plasma cells, lymphocytes, eosinophils, mast cells
-

Chronic inflammatory cells and mediators (I)
nMacrophages
-derived from circulatin blood monocytes
-mononuclear phagocyte system: liver: Kupffer cells; lymph nodes, spleen: sinus histiocytes; CNS:
microglia; lungs: alveolar macrophages
-Activated by bacterial endotoxins, by cytokines from immune activated T cells (IFN-γ),…
-Activated macrophages secrete a variety of biologically active products (acid and neutral
proteases, ROS, NO, AA metabolites, IL-1, TNF, GFs influencing proliferation of smooth muscles and
fibroblasts)

Chronic inflammatory cells and mediators (II)
nLymphocytes (B and T)
-Interaction with macrophages
-TCR on macrophages, produce cytokines (IL-2) stimulating T-cells, which produce cytokines (IFN-γ)
activating macrophages
-Plasma cells derived from activated B-cells: production of antibodies against persistent antigens
n
nEosinophils (immune reactions mediated by IgE)
-in parasitic infections
-in allergies
n
nMast cells
-In both chronic and acute inflammation
-IgE coated mast cells release histamins, AA metabolites
-Central players in allergic reactions, incl. anaphylactic shock
n
n

Relationship of chronic inflamation and carcinogenesis
nIncreased production of ROS, cytokines, pro-inflammatory transcription factors
n
nMediators if inflammation:
-Induction of genetic damage
-Induction of cell proliferation
-Inhibition of apoptosis
-Regulation of tumor angiogenesis
n

Relationship of chronic inflamation and carcinogenesis
nBarrett´s oesophagus – adenocarcinoma of qoesophagus
nUlcerative colitis – colorectal cancer
nChronic pancreatitis – pancreatic cancer
nViral hepatitis B, C – hepatocellular carcinoma
nAtrofic gastritis – adenocarcinoma of stomach
nChronic gastritis (Helicobacter pylori) – MALT lymphoma and adenocarcinoma of stomach
nChronic lymphocytic thyreoiditis – carcinomas and lymhomas of thyroid

Granulomatous inflammation
nAggregates  of activated macrophages (epitheloid)
n
nNon-immune granulomas (response to foreign bodies, chemicals )
n
nImmune granulomas
-Necrotizing (tbc)
-Non-necrotizing (sarcoidosis)
n
nPersistent T-cell response
n
nTuberculosis –
n     a prototype of granulomatous disease
n
n
n
n

Examples of diseases with granulomatous inflammation
disease
cause
Tissue reaction
Tuberculosis
Mycobacterium tbc
Caseating tubercle –granuloma
Leprosy
Mycobacterium leprae
Noncaseating granuloma, acid-fast bacilli in macrophages
Syphilis
Treponema pallidum
Gumma: enclosing wall of histiocytes, plasma cells infiltrate, central cells necrotic
Cat-scratch disease
G- bacillus
Granuloma with central necrotic debris and neutrohils
Sarcoidosis
Unknown etiology
Noncaseating granuloma with abundant activated macrophages
Foreign body granulomas
Response to foreign bodies, chemicals (berrylium)
Giant cell granulomas (foreign body granulomas)
Crohn disease (IBD)
Immune reaction against intestinal bacterial, self antigens
Occasional noncaseating granuloma in wall of intestine+chronic inflammatory infiltrate

Morbus Crohn – noncaseous granuloma in subserous tissue.
100x


Tuberculous lymphadenitis.
40x


Granulomatou-purulent lymphadenitis – cat scratch disease.
granulom nekrot


Sarcoidosis of a lymph node
granulomat la2


Granulomatous giant cell reaction around foreign bodies.
granulom cizí těleso


Systemic effects of inflammation
nFever
n     (cytokines (TNF, IL-1) stimulate production of PGs in hypothalamus)
nConstitutional symptoms
n     (malaise, anorexia, nausea, weight loss in chronic inflammation)
nProduction of acute phase proteins
n     (CRP, fibrinogen, SAA – synthesis stimulated by cytokines (IL- 6))
nHaematological changes: leukocytosis, increased erythrocyte sedimentation rate, anaemia
nIn some severe infections, septic shock (↓BP, DIC, metabolic abnormalities)
nSecondary amyloidosis (in chronic inflammation)

Thank you for your attention …