Fats, Cholesterol, and Hormones

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Fats, Cholesterol, and Hormones 1

Types of Fats Lipids biological origin sparingly soluble in water Main classes of lipids Fatty Acids long hydrocarbon chains with a carboxylic acid on one end Triacylglycerols fatty acid derivatives of glycerol Phosphoacylglycerol phosphate substituted diacylglycerols Cholesterol 4 ring system with a single polar group 2

Triacylglycerol (ide) Triacylglycerols fatty acid derivatives of glycerol 3

Fatty Acids Saturated single bonds all the way down the chain C > 20 or C < 14 are very uncommon Most chains have an even number 4

Fatty Acids Unsaturated single bonds all the way down the chain Chain length : number of double bonds - position of 1 st double bond from CH 3 terminal Double bonds tend to form every 3 carbons cis All double bonds are cis trans 5

The importance of omega-3 FA Blood fat (triglycerides). Fish oil supplements can lower elevated triglyceride levels. Having high levels of this blood fat puts you at risk for heart disease. DHA alone has also been shown to lower triglycerides. Rheumatoid arthritis. Fish oil supplements (EPA+DHA) can curb stiffness and joint pain. Omega-3 supplements also seem to boost the effectiveness of anti-inflammatory drugs. Depression. Some researchers have found that cultures that eat foods with high levels of omega-3s have lower levels of depression. Fish oil also seems to boost the effects of antidepressants and may help the depressive symptoms of bipolar disorder. Baby development. DHA appears to be important for visual and neurological development in infants. Asthma. A diet high in omega-3s lowers inflammation, a key component in asthma. But more studies are needed to show if fish oil supplements improve lung function or cut the amount of medication a person needs to control the condition. ADHD. Some studies show that fish oil can reduce the symptoms of ADHD in some children and improve their mental skills, like thinking, remembering, and learning. But more research is needed in this area, and omega-3 supplements should not be used as a primary treatment. Alzheimer's disease and dementia. Some research suggests that omega-3s may help protect against Alzheimer's disease and dementia, and have a positive effect on gradual memory loss linked to aging. But that's not certain yet. Source: WebMD 6

The Good, the Bad and the Ugly Chlyomicrons Dietary fat/cholesterol transport to cells Originate in intestinal mucosa cells 1-2% protein, 85-88% triglycerides, ~8% phospholipids, ~3% cholesteryl esters and ~1% cholesterol LDL (Low Density Lipoprotein) Bad Cholestrol Cholesterol transport from liver to cells One of the lipoproteins (B-100) is recognized by LDL receptors. This triggers encapsulation of LDL and release of cholesterol to be used in the plasma membrane 20-22% protein, 10-15% triglycerides, 20-28% phospholipids, 37-48% cholesteryl esters, and 8-10% cholesterol HDL (High Density Lipoprotein) Cholesterol transport to liver for degradation (or recycling) Cholesterol scavenger 55% protein, 3-15% triglycerides, 26-46% phospholipids, 15-30% cholesteryl esters, and 2-10% cholesterol 7

Steroid Hormones Related to stress and low blood glucose response 8

Omega 6 s and Prostaglandin Hormones Synthesized in your body from Linoleic Acid Some of the physiological effects of Prostaglandins: The inflammatory response (rheumatoid arthritis). The production of pain and fever. The regulation of blood pressure. The induction of blood clotting. The control of several reproductive functions such as the induction of labor. The regulation of the sleep / wake cycle. Notable: Cyclooxygenase (COX-2) is the target of many anti-inflammatory drugs Aspirin Naproxen (Aleve) Ibuprofen (Motrin, Advil) 9

Hormones and Classifications In eukaryotes, intercellular signals occur through mediated release of hormones (chemical messengers) Classified by the distance over which the carry a message Endocrine hormones act on cells distant from the site of release Paracrine hormones act on cells close to the site of release Autocrine hormones act on the same cell 10

How do Hormones Work? 11

Hunger/Satiation 12

Hunger/Satiation 13

General Features of Signal Transduction Specificity is achieved by precise molecular complementarity between the signal and receptor molecules Extra specificity built into expression profile of certain cell types What types of IM forces do you think guide the specificity? Thyrotropin-releasing hormone triggers response in pituitary cells but not hepatocytes Epinephrine alters glycogen metabolism in hepatocytes but not adipocytes 1. Affinity of receptors for signal molecules Often sub-nanomolar 2. Cooperativity in the interaction Small changes in ligand concentration results in large changes in receptor activation 3. Amplification of the signal Receptor is activated, which catalyzes the activation of many equivalents of a 2 nd enzyme. 14

Thyroid Hormones 15

Insulin and the Insulin Receptor 16

Insulin and the Insulin Receptor Production stimulated by elevated blood glucose levels (synthesized in the pancreas) Insulin Cell division initiated Sugar uptake into all cells via the Glucose Transporter Glycogen synthesis is stimulated Decreased Hunger 17

Insulin and the Insulin Receptor 18

Insulin and the Insulin Receptor 19

Insulin and the Insulin Receptor 20

The Physiological Response to Blood Sugar 21

Epinepherine Receptor Action (same as Glucagon) 22

camp/pka Regulated Genes 23

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