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The Eicosanoids: Prostaglandins (PG) Thromboxanes Leukotrienes Related Compounds
1. The Eicosanoids: Prostaglandins (PG) Thromboxanes Leukotrienes Related Compounds
2. Eicosanoids
• Oxygenated products ofpolyunsaturated, long-chain, fatty acids
From Greek eikosi ("twenty")
• Found in animals & plants
• Highly potent
• Wide spectrum of biologic activity
3.
4. Linolenic acid an omega 3 fatty acid
• component of cell membranes• essential for normal growth and development
• converted to longer chain omega-3 fatty acids:
eicosa pentaenoic acid (EPA)
( major constituent of oils from fatty fish like salmon)
&
docosa hexaenoic acid (DHA)
• These omega-3 fatty acids protect
CAD, sudden cardiac death, heart failure
through anti
- arrhythmic,-thrombotic,
-atherosclerotic, -inflammatory mechanism
5. ARACHIDONIC ACID (AA) 5,8,11,14-eicosa tetra enoic acid
• An omega-6 fatty acid 20:4(ω-6)• arachis – peanut
• AA, derived from:
1-dietary linoleic acid (a omega 6 Fatty acid)
2- as dietary constituent ingested
• Released/ mobilized from membrane phospholipids by one
or more lipases : phospholipase A 2 (PLA 2 )
• AA transformed into metabolites called eicosanoids
6.
7.
8.
9. Types of Phospholipases
1- Cytosolic (c) PLA 2:Chemical & physical stimuli, Ca dependent,
high affinity for AA, acute release of AA
2- Inducible secretory (s) PLA 2:
in sustained or intense stimulation produce AA
3- Ca -independent (i) PLA 2
Under non-stimulated conditions, liberated AA
reincorporated into cell membranes
negligible eicosanoid biosynthesis
4- Combination of PLC & di glyceride lipase
10.
11. Prostanoids: PGs, TXA, prostacyclin
• Generated from PGH 2 by terminal enzymesisomerases & synthases
• Expressed in relatively cell-specific fashion
• Chemical Differences of PGs :
(1) substituents of pentane ring ( E in PGE )
(2) number of side chains double bonds
(subscript :PGE 1, 2 )
12.
13. Shift in product formation by changing precursor
• ThromboxaneA2 (TXA 2 ), powerful vasoconstrictor &platelet agonist, synthesized from AA via COX
• metabolism of EPA by COX→ TXA3 relatively inactive
• Fatty acids of cold-water fish & plant substitute AA
dietary EPA supplement →
↓cardiovascular disease & cancer
• 3-Series PG eg:PGE3 , partial agonists or antagonists
of 2-series PG
14. Endoperoxide Synthases (Cyclooxygenases)
• PGH synthase-1 (COX-1) expressed constitutively in most cells• produce prostanoid for housekeeping: gastric epithel. protection
• PGH synthase-2 (COX-2) inducible by stimulus
• immediate early-response gene product
• up-regulate by:
shear stress, growth factors, tumor promoter, cytokines
major source of prostanoids in inflam. & cancer
• Exceptions:
1- Endothel. COX-2: constitutive prostacyclin (PGI 2)
2- Renal COX2-derived prostanoids:
normal renal develop/function
15.
16. PGH 2 metabolism products
PGI 2
TXA 2
PGE2
PGF 2α
By:
prostacyclin, thromboxane, PGE & PGF synthases
(PGIS, TXAS, PGES & PGFS)
17.
18. Enzyme types
2 enzymes for PGF 2α synthesis:9,11-endo peroxide reductase from PGH 2
9-keto reductase from PGE 2
3 enzymes for PGE 2 synthases:
microsomal (m) PGES-1
more inducible mPGES-2
cytosolic PGES
2 enzymes for PGDS isoforms:
lipocalin-type
hematopoietic PGDS
19. Products of Lipoxygenase
• AA metabolism by 5-, 12-, 15-lipoxygenases (LOX)→ hydro peroxy eicosa tetraenoic acid (HPETEs)→
hydroxy derivatives (HETEs) & leukotrienes
• most investigated leukotrienes: products of 5-LOX
20.
21. Sites of leukotrienes synthesis
• 5-LOX present in:leukocyte
(neutro-,baso-, eosin & monocyte-macrophages),
dendritic
mast cell
22. Transcellular biosynthesis
• Non-leukocyte cells (eg, endothel. cells)have enzymes downstream of 5-LOX/FLAP
take up & convert leukocyte-derived LTA 4
or
endothelial cell use platelet PGH2 to synthesis PGI2
23.
24.
25. LTC 4 & LTD 4
LTC 4 & LTD 4• Slow-reacting substance of anaphylaxis (SRS-A)
• secrete in asthma & anaphylaxis
• Potent bronchoconstrictor
Antileukotriene drug development:
1- 5-LOX enzyme inhibitors
2- leukotriene-receptor antagonists
3- inhibitors of: FLAP & phospholipase A 2
26. Isoprostanes
• COX independent productionNot formed by COX so not inhibited by
aspirin/NSAIDs
• Large amount
x10 greater in blood/urine than COX derived PG
• Storable
27. Isoprostanes Functions
• Biomrker of oxidative stress• Potent vasoconstrictor
in infu. to renal & other vessels
• may activate prostanoid receptors
• Leukocyte & platelet adhesive interactions
angiogenesis, inflam.
• Multiple isoprostanes formed coincidentally in oxidant
stress→ difficult to assess their biologic functions
28. Receptor Mechanisms
• Eicosanoids, not circulating hormone, Short t1/2• Ligands bind to G Pr -coupled receptors on cell
surface in autocrine/ paracrine fashion
• A single gene product identified for:
PGI 2 (IP), PGF 2α (FP), & TXA 2 (TP) receptors
• 4 distinct PGE 2 receptors (EPs 1–4) &
2 PGD 2 receptors
29. 1- Vascular Smooth Muscle Vasoconstrictors eicosanoids
1-TXA 2 potentOnly SMC mitogen eicosanoid
SMC exposure to testosterone up-regulates SMC TP
expression
2- PGF 2α
3- Isoprostane 8-iso-PGF 2α ( iPF 2 αIII)
via TP receptor
30. Vasodilatation
1- Vascular PGI 2synthesis by COX-2 in SM & endothel. cells (major)
inhibits SMC prolif., use in pulmonary HT
2- PGE 2 produced by endothel.cells
vasodilator in microcirculation
↑ cAMP & ↓ Ca of SM, via IP & EP 4 receptors
3- PGD 2 vasodilator esp in niacin- induced flushing
31. 2. Gastrointestinal tract smooth muscle
• Contraction:Longitudinal muscle by & PGF 2α & PGE2 (via EP3)
(via FP)
Circular muscle by PGF 2α & weakly by PGI 2
use of PGE 2 or PGF 2α → colicky cramps
• Powerful contract. by Leukotrienes
o Relaxtion by PGE 2 (via EP 4 )
32. 3. Airways Respiratory SM
• Relaxed by PGE 2 & PGI 2• Constrict by PGD 2, TXA 2, PGF 2α, cysteinyl LT
> histamine
also stimulate mucus secretion→ mucosal edema
• Bronchospasm in 10% of NSAID users, Shift AA
from COX metabolism to leukotriene formation
33. B. Platelets
• Low concent. PGE 2 ↑aggregation (via EP 3 )• higher concent. inhibit (via IP)
PGD 2 (via DP 1), PGI 2 (via IP) inhibit aggregat.
↑cAMP
34. TXA 2 & Aspirin
TXA 2 & Aspirin• ↑ TXA 2 synthesis in platelet activation /aggregation
↑ urinary metabolites of TXA2 in MI & stroke
• Irreversible inhibit of TXA 2 biosynthesis by
chronic low dose aspirin
10% TXA2 synthesis by macrophage COX-2 in smoker
insensitive to low-dose aspirin
o Inverse dose-response relation of Aspirin:
inhibit of PGI 2 synthesis at higher doses
35. BP & renal function regulation
BP & renal function regulation• Cortical COX2-derived PGE2& PGI2
1- maintain RBF & GFR via local vasodilating
esp in marginally functioning kidney &
volume-contract state
2- modulate systemic BP regulation water&Na excr
• ↑medullary COX -2 express & mPGES-1
in high salt intake
• COX- 2-derived prostanoids ↑medullary blood
flow & inhibit tubular Na reabsorption
36. Hypertension (HT)
• HT associated ↑TXA 2, ↓PGE 2 & PGI 2 synthesisin some animal models
• ↑TXA 2 formation in cyclosporine nephrotoxicity
PGF 2α may ↑ BP by renin release
FP antagonists potential antihypertensives
37. Central sensitization
• Peripheral pain stimulus →↑spinal COX-1 &2 & PG release
• PG (mainly PG E2)→ ↑excitability spinal dorsal
horn neurons
1- ↑ pain intensity
2- extent area of pain perception
3- pain from normally innocuous stimuli
38. Bone Metabolism
• PG abundant in skeletal tissue• produced by osteoblasts & hematopoietic cells
• major effect (esp PGE 2, acting on EP 4 )
↑bone turnover, stimulate resorption/ formation
• PG may mediate effects of mechanical forces on
bones & bone changes in inflam.
39. COX inhibitors musculoskeletal effects
• Slow skeletal muscle healinginterfere with PG effects on myocyte prolif.,
differentiation, fibrosis in response to injury
• NSAIDs, esp COX-2 inhibitors
delay bone healing in experimental fractures
• NSAID benefit? in Menopausal bone loss by PG
40. H. Eye
• PGE & PGF derivatives lower intraocular pressure• mechanism? ↑ outflow of aqueous humor from
anterior chamber via uveoscleral pathway
41. PGE2 & cancer
PGE2 & cancer• Principal oncogen: initiation, progress, metastasis via
↑prolif. Angiogenesis, invasiveness,
immunosuppress, inhibit apoptosis
• ↑express mPGES-1 in tumor, potential use of inhibit.
• ↓carcinogenesis in mice lack EP 1, 2, 4 receptor
Transactivation of epidermal growth factor receptor
linked with oncogenic activity of PGE 2
• TXA 2 procarcinogen
macrophage COX-2 /platelet COX-1 derived
42. Cancer & NSAIDS
Cancer & NSAIDS• Pharmacol. inhibit or genetic delet. of COX-2→
inhibit tumor formation in models of colon, breast,
lung,….
• Incidental NSAIDs use ↓ risk of these cancers
• Chronic low-dose aspirin not lower incidence but
↓cancer death
• , COX ihibit. ↓ polyp formation in familial polyposis
• NSAID →↓Breast cancer risk esp in hormone recpt +
43. Syntheyic PG analogues
• Alprostadil (PGE 1 ) SM relaxant1- infu. for maintain ductus arteriosus patent in
neonates with vessels transposition awaiting
cardiac surgery
2- treatment of impotence by inj, into cavernosa
44. Misoprostol (PGE1 analog)
1-approved for peptic ulcers prevention• cytoprotective in high doses NSAIDs use for arthritis &
history of associated ulcer
2- combination with progesterone antag.: mifepristone
(RU 486)
extremely effective/safe abortifacient in early pregnancy
Or Plus MTX
• Side effect: diarrhea
45. Prostacyclin (PGI2) analogues
• epoprostenol in severe pulmonary/portopulmonary HT &
prevent platelet aggregation in dialysis Machines
Thromboxane (TXA 2) undesirable
(aggregation of platelets, vasoconstriction)
TXA 2 –receptor antagonists & synthesis inhibitors
46. Ophthalmology—Latanoprost
• PGF2α derivative• extensive use topically in open-angle glaucoma
• Bimatoprost, travoprost, unoprostone
newer, related drugs
↑outflow of aqueous humor→↓intraocular press.
Iranian & Pfizer
47. COXs inhibition by Nonsteroidal anti-inflammatory drugs (NSAIDs)
• Traditional NSAIDs not selective for COX-1 or -2• Individual variability in selectivity
• Indomethacin & sulindac slightly selective for
COX-1
• Meclofenamate & ibuprofen: COX-1 = COX-2
inhib.
48. Celecoxib
• Selectively inhibit. of COX-2• Advantage in patients seeking for pain relive
while suffering from peptic ulcer disease
• An expensive drug
49. Aspirin
• Acetylates & irreversibly inhibits both COX1 &COX2 enzymes covalently
• Low doses (< 100 mg/d) inhibit platelet COX-1
(only isoform in mature nonuclei Platelet)→
inhibit of TXA 2 biosynthesis
50. Leukotrienes antagonists
1- 5-LOX inhibitor: zileuton2- Selective CysLT 1 receptor antagonists:
montelukast, zafirlukast,, pranlukast
• in mild to moderate asthma
(less effective than inhaled CS)