Metabolism of acylglycerols and sphingolipids Alice Skoumalová.

Slides:

Advertisements

Similar presentations

Adipose Tissue - Fed State

Advertisements

MEMBRANE LIPIDS I and II:

Figure, Head group attachment Membrane phospholipids:

Lipoprotein Metabolism And Disorders

Section VI. Lipid Metabolism

LIPOPROTEIN METABOLISM

Introduction  lipids are a good source of energy as 1 gm supplies 9.1 calories, which is over double that supplied by carbohydrates or protein.  Dietary.

Welcome to class of Lipid metabolism Dr. Meera Kaur.

1 Biosynthesis of Membrane Lipids and Steroids. 2 Membrane Lipids and Steroids Phospholipids 1.Phosphatidate is a common intermediate in synthesis of.

Overview of catabolic pathways. Chapter 16 - Lipid Metabolism Triacylglycerols and glycogen are the two major forms of stored energy in vertebrates Glycogen.

Lipoprotein Structures, Function and Metabolism (1)

COMPLEX LIPID METABOLISM

Metabolism of lipids: digestion, absorption, resynthesis in the intestinal wall. 1.

Lipids “Fat, what good is it?”. Lipids Biomolecules soluble in organic solvents Roles –Nutritional –Structural –regulatory.

Aims 1.Outline the structural diversity of lipids. 2.Examine the biophysical characteristics of lipids. 3Outline the biochemical synthesis of fatty acids,

Lipid Metabolism Dietary Lipid Reactions Lecture 1 of 5 Jim Littlejohn 11/20/03 Texas A+M Health Sciences Center: College of Medicine.

Lipid Transport & Storage

BIOSYNTHESIS OF FATTY ACIDS Hendra Wijaya Esa unggul University.

Structure of lipids Pavla Balínová. Lipids Lipids are a large and heterogenous group of substances of biological origin. They are easily dissolved in.

Lipids in the body Functions 1. Membrane component 2. Thermal insulation and mechanical protection 3. Metabolic regulator 4. Energy store -90% of an adipocyte.

Professor Biochemistry Phospholipid Metabolism. Learning Objectives At the end of the session the student shall be able to: 1. Define phospholipids and.

BCH 348: Metabolism-II Dr Nikhat Siddiqi.

Ch. 33 Synthesis of Fatty acids, Triacylglycerols, Membrane lipids:

Lipids Greek: lipos, fat Chemical diverse set of molecules that are insoluble in water.

Metabolism of Acylglycerols & Sphingolipids

Lipid metabolism By Dr. Hoda Gad. OBJECTIVES BY THE END OF THESE LECTURES, STUDENT SHOULD BE ABLE TO:  Understand the structure of lipids including 

Lipid Metabolism Metabolism of dietary lipids.

Cholesterol and its transport Alice Skoumalová. Cholesterol - structure 27 carbons.

Complex Lipids. Introduction: A 3 week premature baby boy born to a diabetic mother by cesarean section. Presenting complaints: Bluish discoloration of.

Lipid metabolism Pavla Balínová. Lipids Lipids dissolve well in organic solvents but they are insoluble in water. Biological roles of lipids: ● lipids.

Lipoproteins The serum lipoproteins are complexes of lipids and specific proteins called "apoproteins". Functions of Lipoproteins Help to transport lipids.

Biological Lipids and Bilayers Lipids are nearly insoluble in Water –Form Biological membranes –Regulate solute flow and signalling –Provide concentrated.

Lipid Compounds of Physiological Significance By Amr S. Moustafa, MD, PhD.

 Main lipids in the blood are the triglycerides and cholesterol.  Insoluble in the water.  Transport in the blood is via lipoproteins.

Chapter 17 Lipids 17.6 Sphingolipids.

II- Compound lipids: They composed of fatty acids + alcohol+ other substance which may be phosphorous (phosphlipids), proteins (lipoproteins), sugar (glycolipid)

بسم الله الرحمن الرحيم.

Synthesis of triacyglycerol (TAG) in the liver 1- Activation of fatty acids into acyl CoA: In the presence of ATP and CoA, the enzyme thiokinase (or called.

CLINICAL BIOCHEMISTRY OF BLOOD. Functions of blood 1.Transport: transport of oxygen and carbon dioxide transport of nutrients and products of metabolism.

Functions of Phospholipids and Glycolipids 1.Transport of lipids in the blood. 2.Formation of tissue fat. 3.Anchoring certain cell surface proteins like,

LIPID describes a chemically varied group of fatty substances and are highly concentrated energy stores. They are water-insoluble bio-molecules but soluble.

Metabolism - Session 5, Lecture 1 Lipid metabolism and Transport Suggested reading: Marks’ Essentials of Medical Biochemistry, Chapter 30, Chapter 31,

Fatty Acid Metabolism 1. Fatty acid synthesis.

METABOLISM OF LIPIDS: DIGESTION OF LIPIDS. TRANSPORT FORMS OF LIPIDS.

بسم الله الرحمن الرحيم.

COMPLEX LIPIDS DENTAL BIOCHEMISTRY 2015 Lecture 18 Michael Lea.

Phospholipid Compounds of Physiological Importance By Amr S. Moustafa, M.D.; Ph.D.

4. DIGESTION AND ABSORPTION OF LIPIDS. INTRODUCTION Foods are enzymatically digested to prepare them for absorption. During digestion in the gastrointestinal.

LIPID describes a chemically varied group of fatty substances and are highly concentrated energy stores. They are water-insoluble bio-molecules but soluble.

Hormonal regulation of lipid metabolism

Lipid metabolism.

THERE ARE TWO CLASSES OF PHOSPHOLIPIDS:

Chapter 24 Metabolic Pathways for Lipids and Amino Acids

Lipid Metabolism Metabolism of dietary lipids.

Cholesterol and its transport

Fat catabolism: generation of energy by fatty acid oxidation

LIPOPROTEINS A to Z.

An Overview of Fatty Acid Metabolism

Fatty acid synthesis (Lipogenesis & Lipolysis)

LIPIDS AND LIPOPROTEINS Dr. Gamal Gabr

Lipids of Physiological Significance

LIPID METABOLISM.

Lipid Metabolism Metabolism of dietary lipids.

Advanced Nutrition Lipids 5 MargiAnne Isaia, MD MPH.

Dr. Diala Abu-Hassan, DDS, PhD

Phospholipids of clinical significance

Lipoprotein Metabolism

Presentation transcript:

Metabolism of acylglycerols and sphingolipids Alice Skoumalová

Types of glycerolipids and sphingolipids

1.Triacylglycerols  function as energy reserves  adipose tissue (storage of triacylglycerol), lipoproteins

2. Glycerophospholipids  the major lipid components of biological membranes  lipoproteins, bile, lung surfactant  source of PUFA (eicosanoids)  signal transmission (hydrolysis of PIP 2 )

3. Plasmalogens  myelin, heart muscle PAF (Platelet-activating factor)  released from phagocytic blood cells in respons to varios stimuli (platelet aggregation, edema, hypotension)

4. Sphingomyelins (sphingophospholipids)  membrane components (make up 10-20% of plasma membrane lipids)  myelin Sphingosine

4. Glycolipids  the surfaces of cell membranes, receptors (hormons, cholera toxin), specific determinats of cell-cell recognition, the antigenic determinants of the ABO blood groups  cerebrosides, sulfatides, gangliosides

FA (from the diet, synthetized)  TG  glycerophospholipides  sphingolipides Lipogenesis - the synthesis of triacylglycerols from glucose (mainly in the liver)

Synthesis of TG in the smooth endoplasmic reticulum The sources of glycerol 3-phosphate: 1. the phosphorylation of glycerol (glycerol kinase) liver 2. the reduction of dihydroxyacetone phosphate (from glycolysis) liver, adipose tissue Phosphatidic acid - the precursor for: 1. TG 2. glycerophospholipids

Dephosphorylation: Addition of another acyl: Formation of TG:

Synthesis, processing and secretion of VLDL  proteins synthesized on the rough ER are packaged with TG in the ER and GC to form VLDL TG, cholesterol, phospholipids and proteins VLDL

Lipoproteins Function:  Lipid transport (cholesterol, cholesterol esters, triacylglycerols, phospholipids) Structure: A nucleus: triacylglycerols, cholesterol esters A shell: phospholipids, apoproteins, cholesterol

Fate of VLDL TG Lipoprotein lipase  present on the lining cells of the capillaries (in adipose and sceletal muscle tissue)  coenzyme Apo C-II (from HDL)  hydrolyses TG from VLDL and chylomicrons

Storage of TG in adipose tissue Insulin  glucose transport into cells  synthesis and secretion of LPL

Release of FA from adipose TG ↓Insulin, ↑Glucagon  intracellular cAMP increases - activates protein kinase A - phosphorylates hormone-sensitive lipase FA - complexes with albumin, oxidized to CO 2 and water in tissues Prolonged fasting - ketone bodies (from acetyl CoA), gluconeogenese (glycerol)

2. Phospholipid interconversions: Synthesis of glycerophospholipids 1. Phosphatidic acid - addition of a head group to the molecule

Phospholipases located in cell membranes or in lysosomes Phospholipase A2Phospholipase C Arachidonic acid - eicosanoidsHydrolysis of PIP 2 - the second messengers Repair mechanism for membraneDAG and inositol PIP 2 lipids damaged by free radicals Degradation of glycerophospholipids

Synthesis of sphingolipids In the Golgi complex (membranes of SV) Formation of ceramide: Precursors: Serine + Palmitoyl CoA condense

Degradation of sphingolipids  by lysosomal enzymes (deficienties result in lysosomal storage disease = sphingolipidoses) Sphingolipidoses genetic mutations, mental retardation, death NemocDeficit enzymuKumulující lipid Fucosidosisα-FucosidaseH-Isoantigen Generalized gangliosidosisG M1 -β-GalactosidaseG M1 -Ganglioside Tay-Sachs diseaseHexosaminidase AG M2 -Ganglioside Tay-Sachs variantHexosaminid. A and BG M2 -Ganglioside Fabry diseaseα-GalactosidaseGlobotriaosylceramide Ceramide lactoside lipidosisCeramide lactosidaseCeramide laktoside Metachromatic leukodystrophyArylsulfatase A3-Sulfogalactosylceramide Krabbe diseaseβ-GalactosidaseGalactosylceramide Gaucher diseaseβ-GlucosidaseGlucosylceramide Niemann-Pick diseaseSphingomyelinaseSphingomyelin Farber diseaseCeramidaseCeramide

Tay-Sachs disease  ganglioside accumulation in neurons

Summary Triacylglycerols (synthesis) Storage of TG in adipose tissue Release of FA from adipose tissue Glycerophospholipids (synthesis, degradation) Sphingolipids (synthesis, degradation)

Pictures used in the presentation: Marks´ Basic Medical Biochemistry, A Clinical Approach, third edition, 2009 (M. Lieberman, A.D. Marks)