Nutrition & Metabolism PDF

Summary

These lecture notes cover the topics of Nutrition and Metabolism. They include information on nutrients, essential nutrients, non-essential nutrients, macronutrients, micronutrients, vitamins, minerals, and different types of macromolecules. It also covers energy, metabolism, anabolism and catabolism.

Full Transcript

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NUTRITION &
METABOLOMICS
Dr. Samantha Solecki, DC, MS
Instructor, Biology
Thinker. Learner. Motivator. Lover of Anatomy & Physiology

[email protected]

© 2019 Pearson Education, Inc.
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Learning Objectives
*Acquired from the Human Anatomy and Physiology Society (HAPS) with personal additions

With respect to nutrients:
Define nutrient, essential nutrient and non-essential nutrient.
List the six main classes of nutrients.
Classify vitamins as either fat-soluble or water-soluble and discuss the major uses of each vitamin
in the body.
List the important dietary minerals and describe the major uses of each mineral in the body.
Describe the components of a balanced diet including the concept of recommended
daily amounts.
Define metabolism, anabolism and catabolism.
Provide examples of anabolic and catabolic reactions.
Compare and contrast the roles of enzymes and coenzymes in metabolism.
With respect to carbohydrate metabolism:
State the overall reaction for glucose metabolism.
Describe the processes of glycolysis, formation of acetyl CoA, the Kreb’s cycle and the electron
transport chain.
Describe the role of the liver in metabolism.
Compare and contrast the processes that occur in the absorptive and post-absorptive
states.
Define metabolic rate and basal metabolic rate.
Provide specific examples to demonstrate how metabolic processes respond to
maintain homeostasis in the body.
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Nutrients
Most nutrients are used for metabolic fuel, but
some are for cell structures and molecular
synthesis
Nutrient: substance in food needed for growth,
maintenance, repair
Macronutrients: three major nutrients that
make up the bulk of ingested food
Carbohydrates, lipids, and proteins
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Nutrients
Micronutrients: two other nutrients that are
required, but only in small amounts
Vitamins and minerals
Water is required, so technically it is a nutrient
Essential nutrients: nutrients that must be eaten
because body cannot synthesize these from other
nutrients
45–50 nutrients are considered essential
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Nutrients
Nonessential nutrients are also vital to life, but if
not enough is available, liver can usually convert
another nutrient into one needed
Energy value is measured in kilocalories (kcal)
A calorie is the amount of heat needed to raise temperature
of 1 kg H2O by 1oC
One dietary “Calorie” equals 1 kcal
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Macromolecules
1. Carbohydrates
Monosaccharides, Disaccharides, Oligosaccharides,
Polysaccharides
Starch, Cellulose, Glycogen
Simple versus Complex

2. Proteins
Amino acids, dipeptides, tripeptides, polypeptides, protein
Fibrous versus Globular
Complete versus incomplete

3. Lipids
Monoglycerides, Diglycerides, Triglycerides, Cholesterol
Saturated fatty acids versus Unsaturated fatty acids

4. Nucleic Acids
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Carbohydrates
Dietary sources
Primarily from plants, such as starch (complex
carbohydrates) in grains and vegetables
Sugars (mono- and disaccharides) in fruits, sugarcane,
sugar beets, honey, and milk
Insoluble fiber: cellulose in vegetables provides
roughage
Soluble fiber: pectin in apples and citrus fruits reduces
blood cholesterol levels
Small amount in milk sugar, glycogen in meats
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Carbohydrates
Uses in body
Glucose: fuel most used by cells to make ATP
Some cells use fat for energy
Neurons and RBCs rely entirely on glucose
Neurons die quickly without glucose
Excess glucose is converted to glycogen or fat, then stored
Fructose and galactose are converted to glucose by liver
before entering circulation
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Lipids
Dietary sources
Triglycerides (neutral fats): most abundant form
Found in saturated fats in meat, dairy foods, tropical oils, or
hydrogenated oils (trans fats)
Unsaturated fats found in seeds, nuts, olive oil, and most
vegetable oils
Cholesterol found in egg yolk, meats, organ meats,
shellfish, and milk products
Liver makes ~85% cholesterol
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Lipids
Liver can convert some fatty acids into others,
Two essential fatty acids it cannot synthesize:
Linoleic acid – an omega-6 fatty acid
Component of lecithin
Linolenic acid – an omega-3 fatty acid
Both can be found in most vegetable oils
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Lipids
Uses in body
Adipose tissue offers protection, insulation, fuel storage
Phospholipids essential in myelin sheaths and all cell
membranes
Cholesterol stabilizes membranes; precursor of bile salts,
steroid hormones
Prostaglandins smooth muscle contraction, BP control,
inflammation
Major fuel of hepatocytes and skeletal muscle
Help absorb fat-soluble vitamins
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Cholesterol
Function:

Low-density lipoprotein

Very low-density lipoprotein

High-density lipoprotein
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Composition and Function of
Lipoproteins

Figure 24.24 Composition and function of lipoproteins
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Proteins
Dietary sources
Animal products (eggs, milk, fish, most meats), as well as
soybeans, are considered complete proteins
Contain all needed essential amino acids
Legumes, nuts, and cereals contain incomplete proteins
(lack some essential amino acids)
Legumes and cereal grains together contain all essential
amino acids
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Essential Amino Acids

Figure 24.2 Essential amino acids
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Proteins
Uses in body
Structural materials
Example: keratin (skin), collagen and elastin (connective
tissue), and muscle proteins
Functional molecules
Example: enzymes and some hormones
Three factors help determine whether amino acids are
used to synthesize proteins or burned as fuel:
1. All-or-none rule
All amino acids needed must be present for protein synthesis to
occur; if not all are present, then amino acids are used for energy
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Proteins
Uses in body (cont.)
2. Adequacy of caloric intake
Protein is used as fuel if insufficient carbohydrate or fat is available
3. Hormonal controls
Anabolic hormones (GH, sex hormones) accelerate protein synthesis
and growth
Adrenal glucocorticoids (released during stress) promote protein
breakdown and conversion of amino acids to glucose
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Proteins
Uses in body (cont.)
Nitrogen balance
Homeostatic state where rate of protein synthesis equals rate of
breakdown and loss
Positive nitrogen balance: synthesis exceeds breakdown (normal
in children, pregnant women, tissue repair)
Negative nitrogen balance: breakdown exceeds synthesis
(example: stress, burns, infection, injury, poor dietary proteins,
starvation)
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Cofactors/Coenzymes
Vitamins
Fat-soluble vitamins
A, D, E, K
Water-soluble vitamins
C & B-vitamins
Minerals
Sodium, chloride, potassium, iodine, magnesium,
manganese...
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Vitamins
Dangerous free radicals are generated during
normal metabolism
Vitamins C, E, and A and mineral selenium are
antioxidants that neutralize these free radicals
Broccoli, cauliflower, brussels sprouts are all good sources
of vitamins A and C
Megadoses*** of vitamins are useless and may
actually cause serious health problems,
depending on vitamin involved
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Vitamins

Table 24.2 Vitamins
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Minerals

Table 24.3 Minerals in the Body
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METABOLISM
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Absorptive & Postabsorptive States
Absorptive State
Fed/Following a meal
Anabolism >>> Catabolism
Hormones involved:

Postabsorptive State
Fasting/Hours after a meal
Catabolism >>> Anabolism
Hormones involved:
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Principles of Metabolism
Cellular metabolism --- Adenosine Triphosphate
(ATP)
Glycolysis
Tricarboxylic Acid Cycle
Electron Transport Chain
Oxidation : loss of electrons (loss of energy)
Reduction : gain of electrons (gain energy)

Anabolism
Catabolism
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Anabolism and Catabolism
Cellular respiration: catabolic breakdown of
food fuels whereby energy from food is captured
to form ATP in cells
Goal of cellular respiration is to trap chemical energy in
ATP
Energy can also be stored in glycogen and fats, which can be
broken down later
Phosphorylation: enzymes shift high-energy
phosphate groups of ATP to other molecules
Phosphorylated molecules become activated to perform
cellular functions
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Anabolism and Catabolism
Three stages in processing nutrients
Stage 1: Digestion, absorption, and transport to tissues
Stage 2: Cellular processing (in cytoplasm)
Synthesis of lipids, proteins, and glycogen, or

Catabolism (glycolysis) into pyruvic acid and acetyl CoA

Stage 3: Oxidative breakdown of intermediates into CO2,
water, and ATP
Occurs in mitochondria

Cellular respiration consists of glycolysis of stage 2
and all of stage 3
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Three Stages of Metabolism of
Energy-Containing Nutrients

Figure 24.3 Three stages of metabolism of energy-containing nutrients
Interconversion of 29

Carbohydrates, Fats, and
Proteins

Figure 24.19 Interconversion of carbohydrates, fats, and proteins
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Metabolic Roles of Organs...
Stomach

Small Intestine

Large Intestine

Liver

Gallbladder

Pancreas
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Energy Balance
Energy intake versus Energy expenditure
Waist:Hip
Fat deposition
Body Mass Index
BMI = wt (lbs) x 705 / ht (in)2
20-24.9
25-29.9
30-34.9
35-39.9
40+
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Metabolic Rate
Total heat produced by chemical reactions and
mechanical work of the body
Basal metabolic rate (BMR)
energy needed to perform essential activities
Depends on body surface area, gender, age, hormones,
and stress
Doesn’t vary with physical training
Total metabolic rate (TMR)
Rate of kilocalorie consumption to fuel all ongoing
activities
Increases with skeletal muscle activity and food ingestion
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Neurological and Hormonal Influences of
Food Intake
Hypothalamus
Regulating hunger and satiety
Short-term controls
Neural: content of food and stretch
Nutrient levels: glucose, amino acids, fatty
acids
Hormonal: insulin & CCK stop hunger;
glucagon, epinephrine and ghrelin stimulate
hunger
Long-term controls
Leptin from adipose cells; rising levels
suppress appetite to a point
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Disorders of Nutrition
Obesity
Metabolic Syndrome
Type 2 Diabetes Mellitus
Malnutrition