Understanding the Importance of Phospholipids in Physiology

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This educational material delves into the significance of phospholipids in physiological processes. Topics covered include the structure and functions of phospholipids, their role in membranes, signaling mechanisms, and non-membrane functions. The content also explores lipid compounds as a heterogeneous group with unique properties and importance in various biological functions.


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  1. Phospholipid Compounds of Phospholipid Compounds of Physiological Importance Physiological Importance By Reem M. Sallam, M.D.; Ph.D.

  2. Objectives Objectives By the end of this lecture, students are expected to: By the end of this lecture, students are expected to: Discuss selected members of phospholipids Describe the physiological importance of phospholipids with specific examples Distinguish various Plospholipases and describe their roles: Phospholipases A1, A2, C and D Lysosomal phospholipase: Sphingomyelinase

  3. Functions of Phospholipids Functions of Phospholipids (A) (A)Membrane Membrane- -bound phospholipids: bound phospholipids: Structural Structural: Predominant lipids of cell membranes : Predominant lipids of cell membranes Anchoring Anchoring: Attaching some proteins to : Attaching some proteins to membranes membranes Signaling Signaling: Source of IP : Source of IP3 3 and DAG and DAG Myelin sheath: insulator and speeds up Myelin sheath: insulator and speeds up transmission of nerve impulses transmission of nerve impulses

  4. Functions of Phospholipids Functions of Phospholipids CONT D (B)Non (B)Non- -membrane membrane- -bound phospholipids: bound phospholipids: Easy Easy re re- -inflation inflation of alveoli by air: Lung surfactant of alveoli by air: Lung surfactant Detergent Detergent effect: Essential component of bile effect: Essential component of bile Solubilize cholesterol Solubilize cholesterol Preventing gall stones Preventing gall stones Emulsifying lipids Emulsifying lipids Helping lipid digestion Helping lipid digestion Structural Structural: Coat of lipoproteins : Coat of lipoproteins

  5. Background: Lipid Compounds Background: Lipid Compounds Heterogeneous group Relatively water-insoluble (Exception: Ketone bodies) Soluble in non-polar solvents

  6. Lipid Compounds: Lipid Compounds: Heterogeneous Group Heterogeneous Group A. Simple Lipids: A. Simple Lipids: Fatty acids Fatty acids Ketone bodies Ketone bodies Triacylglycerol Triacylglycerol Cholesterol Cholesterol B. Complex Lipids: B. Complex Lipids: Phospho Phospholipids Lipo Lipoproteins proteins Glyco Glycolipids lipids lipids

  7. Phospholipids Phospholipids A. Glycerophospholipids Glycerophospholipids A. Glycerol Glycerol- -containing phospholipids containing phospholipids Degraded and remodeled by phospholipases Degraded and remodeled by phospholipases B. Sphingo Sphingo- -phospholipids: phospholipids: B. Sphingosine Sphingosine- -containing phospholipids containing phospholipids Degraded by Degraded by lysosomal lysosomal phospholipase phospholipase ( (sphingomyelinase sphingomyelinase) )

  8. Phospholipids A. A. Glycerophospholipids Glycerophospholipids: : 1. 1. Phosphatidylcholine Phosphatidylcholine (Lecithin) e.g., Surfactant ( e.g., Surfactant (Dipalmitoylecithin 2. 2. Phosphatidylinositol (Signaling & Anchoring Phosphatidylinositol (Signaling & Anchoring molecule) molecule) (Lecithin) Dipalmitoylecithin) )

  9. Phospholipids: Phospholipids: Glycerophospholipids Glycerophospholipids Parent Compound: Parent Compound: Phosphatidic Phosphatidic acid acid Members: Members: 1.Phosphatidylcholine 1.Phosphatidylcholine (Lecithin) e.g., Surfactant (Lecithin) e.g., Surfactant ( (Dipalmitoylecithin Dipalmitoylecithin) )

  10. Phospholipids: Phospholipids: Glycerophospholipids Glycerophospholipids 1. Dipalmitoylecithin (Lung surfactant) Synthesis and secretion: by granular pneumocytes It is the major lipid component of lung surfactant (65%) (Remaining 35% is: Other phospholipids, cholesterol & proteins) Surfactant decreases surface tension of fluid layer lining of alveoli, reducing the pressure needed for their inflation by air, and preventing alveolar collapse (atelectasis) Congenital Respiratory distress syndrome (RDS): Insufficient production of lung surfactant (especially in pre- term babies) neonatal death

  11. Congenital Respiratory distress syndrome Congenital Respiratory distress syndrome (RDS) (RDS) Pre-natal diagnosis by: Lecithin/sphingomyelin (L/S) ratio in amniotic fluid Ratio of 2 or above indicates lung maturity and no RDS (i.e., shift from sphingomyelin to lecithin synthesis by pneumocytes that normally occurs by 32 wks. of gestation) Prevention: Glucocorticoids to the pregnant mother with low L/S ratio shortly before delivery Treatment: Intratracheal administration of surfactant to pre-term infants with RDS

  12. Phospholipids: Phospholipids: Glycerophospholipids Glycerophospholipids 2. Phosphatidylinositol 4,5 bisphosphate (PI)

  13. Calcium/Phosphatidylinositol System Diacylglycerol (DAG) Phospholipase C InositolTrisphosphate (IP3)

  14. Phosphatidylinositol System Role in signaling Signal: Hormones or neurotransmitters e.g., Acetylcholine, antidiuretic hormone (V1- receptor) and catecholamines ( 1 actions) Receptor: G-protein coupled receptor Effects: Activation of phospholipase C Hydrolysis of phosphatidylinositol 4,5-bisphosphate Production of IP3 ( Ca2+) and DAG Activation of protein kinase C Response: Phosphorylation of cellular proteins responses to hormones and

  15. * * Acetylcholine Antidiuretic hormone (ADH) Catecholamines Intracellular Signaling by Inositol trisphosphate

  16. Phosphatidylinositol Role in Role in Protein Anchoring Protein Anchoring Anchoring of proteins to membranes via Carbohydrate-Phosphatidylinositol Bridge Examples of anchored proteins: 1. Alkaline phosphatase (to the surface of small intestine) 2. Acetylcholine esterase (to postsynaptic membrane) These proteins can be cleaved from their attachment to the membranes by phospholipase C

  17. Lipoprotein Structure Lipoprotein Structure Outer part (coat): Apoproteins or apolipoproteins Phospholipids (Why?) Free cholesterol (Relatively hydrophilic) Allowing transport of lipid particles of the core in the aqueous plasma Inner part (core): According to the type of lipoproteins Different lipid components in various combinations

  18. Lipoprotein Structure

  19. HDL has the highest content of HDL has the highest content of phospholipids among all phospholipids among all classes of lipoproteins classes of lipoproteins Different classes of lipoproteins: 1- Chylomicrons 2- Low density lipoproteins (LDL) 3. High density lipoproteins (HDL) 4- Very low density lipoproteins (VLDL) HDL has the highest content of Phospholipids. Phosphatidyl choline (lecithin) acts as a source for fatty acids necessary for esterification of cholesterol on the surface of HDL by lecithin-cholesterol acyl transferase (LCAT/PCAT)

  20. Phospholipases Phospholipases (1) For glycerophospholipids: Phospholipases A1, A2, C and D Present in all tissues and pancreatic juice Present in snake venoms and bacterial toxins Phospholipase A2 is important for the remodeling of phospholipids to produce the lung surfactant (2) For sphingophospholipids: Lysosomal phospholipase (Sphingomyelinase)

  21. Glycero Glycero- -phospholipases phospholipases

  22. Functions of Phospholipases (1) Degradation of phospholipids Production of second messengers Digestion of phospholipids by pancreatic juice Pathogenic bacteria degrade phospholipids of membranes and causing spread of infection (2) Remodeling of phospholipids: Specific phospholipase removes fatty acid from phospholipid (e.g. Phospholipase A2 is important for the remodeling of phospholipids to produce the lung surfactant Replacement of fatty acid by alternative fatty acid using fatty acyl CoA transferase e.g., Binding of 2 palmitic acids in Dipalmitoylphosphatidylcholine (DPPC) Binding of arachidonic to carbon 2 of PI or PC

  23. Take Home Message Take Home Message Phospholipidsare Complex lipids Phospholipidshave important physiological functions: A. Membrane-bound: Structural Signaling & anchoring: e.g., PI Myelin sheath: e.g., sphingomyelin B. Non-membrane bound: Structural: Lipoprotein coat Alveolar re-inflation: Lung surfactant Detergent effect: Phospholipids of bile

  24. Take Home Message Take Home Message CONT D Phospholipases: Phospholipases A1, A2, C and D Lysosomal Phospholipase: Sphingomyelinase Function of phospholipases: Degradation of phospholipids e.g., production of second messengers Remodeling of phospholipids e.g., production of DPPC (lung surfactant)

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