Lipids: Sphingolipid Metabolism PDF

Summary

This document provides an outline and overview of sphingolipid metabolism. It details the structure, functions, and synthesis of sphingolipids, focusing on ceramide and sphingosine as key components. Clinical applications, including relevant diseases are also discussed. The document is likely from a university or college-level biochemistry course.

Full Transcript

1A
BIOCHEMISTRY

LIPIDS: SPHINGOLIPID METABOLISM
DR. B. JANDOC

OUTLINE  functions:
I. Overview o Intercellular communication
A. Ceramide o Antigenic determinants of ABO blood group
B. Sphingosine o Some are used as receptors by viruses and bacterial toxins
II. Sphingolipids
A. Sphingophospholipids: Sphingomyelin A. SPHINGOPHOSPHOLIPIDS
B. Glycosphingolipids
1. Neutral glycopshingolipids
2. Acidic glycosphingolipids
III. Clinical Application  Backbone: sphingosine
A. Multiple sceloris  long chain fatty acid is
B. Sphingolipidoses attached to the amino group via an
C. Case: Gaucher’s Disease amide linkage

LEGENDS: - from books - from Dr. Jandoc’s lecture SPHINGOMYELIN
 Produced from esterification of the alcohol group at carbon 1 of
LIPIDS: SPHINGOLIPID METABOLISM sphingosine to phosphorylcholine
 Only sphingolipid that contain phosphate and has no sugar
moiety
I. OVERVIEW  Formed from ceramide (fatty acid + sphingosine), cytidine
diphosphate (CDP) , and choline
 The only significant sphingophospholipid in humans
 Major phospholipid components of membranes in neural tissues
 Important constituent of the myelin in nerve fibers
 Hydrolysis will yield:
o Fatty acid
o Phosphoric acid
o Choline
o Sphingosine
A. CERAMIDE
Functions
 synthesized in the endoplasmic reticulum from the amino 1. Major structural lipid in nerve tissue membranes
acid serine 2. Insulates and protects neuronal fibers of the CNS through
a layered membranous structure → myelin sheath
 serine + palmitoyl CoA condense → forms a reduced product
→ addition of a very-long-chain fatty acid (22-carbon containing)  Myelin sheath – contains longer chain fatty acids:
o Lignoceric acid
forms an amide with the amino (NH2) group → formation of
o Nervonic acid
double bond
 Oxidation of palmitoyl moiety by FAD  Grey matter of the brain – contains stearic acid
3. Ceramide with a fatty acid 30 carbons long
 Serve as precursor of glycolipids
 Major component of skin
B. SPHINGOSINE  Regulates skin’s water permeability
 Common precursor of sphingolipids
Synthesis
 Amino alcohol with 2 asymmetric carbon atoms (carbons 2 and
1. Fatty acid is attached to the amino group of sphingosine by
3)
an amide linkage → ceramide (can also serve as precursor
 D-erythro form – naturally occurring sphingosine
of glycolipids)
 Backbone of sphingolipids
 Frequently found fatty acids:
 Synthesized from serine and palmitoyl CoA by a 2-step process
that requires NADPH o Palmitic acid ( most common)
o Stearic acid
II. SPHINGOLIPIDS o Lignoceric acid
 Present in nearly all human tissues o Nervonic acid
 Greatest concentration in the CNS (white matter) 2. Alcohol group at carbon 1 of sphingosine is esterified to
 All are derived from sphingosine phosphorylcholine → sphingomyelin

Trans Finals 4 | ABACCO, ALDERITE, ASISTIN, BALANZA, BAYAS, BIANG

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 1A
BIOCHEMISTRY

LIPIDS: SPHINGOLIPID METABOLISM
DR. B. JANDOC

3. Palmitoyl CoA losses CoA and reacts with ß-aminoalcohol 2. Type B
derived from serine (requires coenzyme pyridoxal
 >5% enzymatic acitivity
phosphate) → product reduced to sphingosine → acylated
 Little to no damage to neural tissue
at the amino group → ceramide reacts with CDP-choline
 life expectancy: early adulthood
→ sphingomyelin
 affects lungs, spleen, liver, and bone marrow
Degradation
B. GLYCOSPHINGOLIPIDS
 Sphingomyelinase
o Lysosomal enzyme  essential in all
o Hydrolyzes membranes of the body – greatest in
sphingomyelin nerve tissues
removing  Almost all glycolipids are
phosphorylcholine derivatives of ceramide (molecule of
– leaving ceramide fatty acid is attached to the amino
o Type of alcohol sphingosine)
phospholipase C  Contains both lipid and
carbohydrate
 Ceramidase
o Cleaves ceramide  Carbohydrate portion
→ sphingosine +
free fatty acid o exposed in the aqueous environment of the cell
 Ceramide – membrane
role as o Serve as cell surface receptors for cholera toxin, tetanus
intracellular toxin, and certain viruses and microbes
messenger o Antigenic determinant – source of:
 Sphingosine – role as intracellular messenger; inhibits  blood group antigens
protein kinase C  various embryonic antigens
 Ceramide and sphingosine may also promote  tumor antigens
apoptosis and for regulation of signal transduction  Location: primarily in the outer layer of the plasma membrane
pathways → interact with extracellular environment → regulation of
cellular interactions, growth, and development
Niemann-Pick Disease
 Autosomal recessive disease Structure
 Inability to degrade sphingomyelin due to sphingomyelinase  Differences from sphingomyelin:
deficiency o Do not contain phosphate
o Polar head function is provided by a monosaccharide or
1. Type A oligosaccharide attached directly to the ceramide by an O-
glycosidic bond
