Vitamins PDF

Summary

This document provides an overview of different vitamins, including their classifications, functions, and deficiency symptoms. It details water-soluble and fat-soluble vitamins, with a focus on their roles in various bodily functions.

Full Transcript

VITAMINS
CLASSIFICATION OF VITAMINS
FAT SOLUBLE VITAMINS
Vitamin A Is Derived from Plant Carotenoids

The active forms of vitamin A are Retinol, Retinal and
Retinoic acid
 The most important Carotenoids
It is essential for the synthesis of glycoproteins
needed for normal growth regulation and
mucus secretion and its deregulation leads to
drying of epithelial tissues
Regulation of cell growth. It downregulates
synthesis of Keratin and deficiency leads to
hyperkeratosis and are required for Iron
transport protein transferrin synthesis and
deficiency leads to anemia
Deficiency leads to increased susceptibility
to infection and cancer
FAT SOLUBLE
VITAMINS
Vitamin D synthesis requires
sunlight
Clinical indications
Nutritional rickets: Vitamin D deficiency causes a
net demineralization of bone, resulting in rickets in
children and osteomalacia in adults. Rickets is
characterized by the continued formation of the
collagen matrix of bone, but incomplete
mineralization, resulting in soft, pliable bones.
In osteomalacia, demineralization of bones
increases their susceptibility to fracture. Insufficient
exposure to daylight and/or deficiencies in vitamin D
consumption occur predominantly in infants and the
elderly.
Vitamin E is a very important naturally occurring antioxidant

The term vitamin E refers to a family of 8
related compounds -tocopherol is the most
active.
 Vitamin E is a very important naturally occurring antioxidant
Tocopherol is the most potent scavenger of reactive oxygen species (ROS)
Tocopherol is a more potent scavenger of reactive nitrogen species (RNS).
Stabilizing ATP production in the cells
Prevent atherosclerosis
Tocopherol increases the levels enzymes involved in heme synthesis
Maintaining normal immune function
Neurological symptoms have been reported following prolonged vitamin E
deficiency

The signs of human vitamin E deficiency include sensitivity of
erythrocytes to undergo membrane rupture and other cellular
membranes.
Vitamin K is a Quinone derivative

The γ-carboxyglutamic acid residues are good chelator (complex maker)
that allow the proteins to bind Ca2+
Clinical indications
Deficiency of vitamin K: A true vitamin K deficiency is unusual because adequate
amounts are generally produced by intestinal bacteria or obtained from the diet.
If the bacterial population in the gut is decreased, for example, by antibiotics, the
amount of endogenously formed vitamin is depressed, and this can lead to
hypoprothrombinemia. This condition may require supplementation with vitamin
K
Deficiency of vitamin K in the newborn: Newborns have sterile intestines and so
initially lack the bacteria that synthesize vitamin K. Because human milk provides
only about one fifth of the daily requirement for vitamin K, it is recommended
that all newborns receive a single intramuscular dose of vitamin K as prophylaxis
against hemorrhagic disease.
WATER SOLUBLE VITAMINS
 WATER SOLUBLE VITAMINS
Excreted once their concentration are high, so toxicities are
rare
Their metabolic stores are labile and deficiencies occur
relatively quickly on an inadequate diet.
Most water-soluble vitamins are converted to coenzymes that
are used in pathways for energy generation or hematopoiesis.
Deficiencies of the energy-releasing vitamins produce a
number of overlapping symptoms and show up first in rapidly
growing tissues.
Thiamin (B1)

Significant sources
Whole grain, fortified, or enriched grain products
Moderate amounts in all nutritious food
Pork
Easily destroyed by heat
Thiamin (B1) Forms the Coenzyme Thiamin Pyrophosphate
A coenzyme required for activity on enzymes which are
involved in bioenergetics
Symptoms of mild thiamin deficiency include loss of appetite,
constipation, nausea, mental depression, peripheral
neuropathy, irritability, and fatigue.
Symptoms of moderately severe thiamin deficiency are
mental confusion, ataxia and ophthalmoplegia (Wernicke
Korsakoff syndrome).
Severe thiamin deficiency is known as Beriberi
(neuromuscular symptoms, including muscular atrophy and
weakness)
Riboflavin (B2)

Significant sources
Milk products (yogurt, cheese)
Enriched or whole grains
Liver

Easily destroyed by ultraviolet light and
irradiation
Riboflavin (B2) Forms the Coenzymes
FAD and FMN coenzyme
Riboflavin is the required for coenzymes
(FAD and FMN ) in a wide variety of redox
reactions.
Riboflavin is also required for iron
mobilization, and riboflavin deficiency can
contribute to anemia when iron intake is
low. Characteristic symptoms of riboflavin
deficiency are angular cheilitis, glossitis,
and scaly dermatitis
Foods rich in riboflavin include milk, meat,
eggs, and cereal products.
Riboflavin deficiencies are quite rare and
are common in chronic alcoholics.
 Chief functions in the body
Niacin (B3) Part of coenzymes NAD (nicotinamide adenine
dinucleotide) and NADP (its phosphate form) used
in energy metabolism
Significant sources
Milk, eggs, meat, poultry, fish
Whole-grain and enriched breads and cereals
Nuts
All protein-containing foods

Precursor: dietary tryptophan
Upper level for adults: 35 mg/day
 Niacin (B3) Forms the Coenzymes NAD and
NADP
NAD is also required tor the poly-ADP-ribose
polymerase reaction, which regulates DNA replication,
DNA repair, and cell cycle progression.
Niacin deficiency results in a glossitis (redness) of the
tongue, pellagra, which is characterized by the three
Ds: dermatitis, diarrhea, and dementia.
The neurologic symptoms are associated with actual
degeneration of nervous tissue.
Pregnancy, lactation, and chronic illness lead to
increased needs for niacin, but a varied diet usually
provides sufficient amounts.
The richest sources of niacin are meats, peanuts and
other legumes, and enriched cereals.
Pyridoxine (B6) Other names
Pyridoxine Pyridoxal Pyridoxamine
As coenzyme for
Transamination
Deamination
Decarboxylation
Condensation reactions
Pyridoxine (B6)
Deficiency leads to poor activity of PLP-dependent enzymes
Causing:
Deficient amino acid metabolism
Deficient lipid metabolism
Deficient neurotransmitter synthesis:
Serotonin, epinephrine, norepinephrine and gamma amino
butyric acid (GABA)
PLP is involved in the synthesis of sphingolipids
Its deficiency leads to demyelination of nerves and consequent
peripheral neuritis
Mild deficiency leads to:
Irritability
Nervousness
Depression
Severe deficiency leads to:
Peripheral neuropathy
Convulsions
Biotin (B7)
Chief functions in the body
Part of a coenzyme used in energy metabolism, fat
synthesis, amino acid metabolism, and glycogen synthesis
Significant sources
Widespread in foods
Organ meats, egg yolks, soybeans, fish, whole grains
Also produced by GI bacteria
Deficiency symptoms
Depression, lethargy, hallucinations, numb or tingling
sensation in the arms and legs
Red, scaly rash around the eyes, nose, and mouth
Hair loss
Toxicity symptoms: none reported
Pantothenic Acid (B5)
Chief functions in the body
Part of coenzyme A, used in energy
metabolism CoA in produced form
B5
Significant sources
Widespread in foods
Organ meats, mushrooms, avocados,
broccoli, whole grains
Easily destroyed by food processing
Deficiency symptoms
Vomiting, nausea, stomach cramps
Insomnia, fatigue, depression,
irritability, restlessness, apathy
Hypoglycemia, increased sensitivity to
insulin
Toxicity symptoms: none reported
Folate (B9)
Main function of tetrahydropholate
transfer a single carbon atom including the methyl group–CH3 from
compound to compound.
FOLIC ACID DEFICIENCY

Folic acid deficiency can be due to poor diet, chronic alcoholism,
inadequate absorption (e.g. damage to the upper third of small
intestine), use of drugs such as anticonvulsants, or extra demand
during pregnancy or lactation. An intracellular deficiency of folic acid
can also arise if methionine synthesis is impaired. Folic acid deficiency
results in anaemia. This is known as megaloblastic anaemia, since it
results in the formation of large, abnormal forms of the cells that are
precursors for erythrocytes.
This is because erythrocyte development arrests at this stage due to
lack of purine and pyrimidine nucleotides for DNA synthesis. Anaemia
is characterised by weakness, tiredness, irritability, headache and
palpitations.
 Folate
Deficiency symptoms
Anemia (large-cell type)
Smooth, red tongue
Mental confusion, weakness, fatigue,
irritability, headache
Toxicity symptoms
Masks vitamin B12-deficiency symptoms
Neural tube defects
Spina bifida
Vitamin B12 (Cobalamin)
Cobalamin (B12)

Two reactions require B12
Conversion of methylmalonyl-
CoA to succinyl-CoA by
methyl-malonyl-CoA mutase

Methionine synthase
reaction Homocystein to
Methionine
B12 Deficiency symptoms

Pernicious anemia
Megaloblastic anemia
Myelin sheath of neurons is chemically unstable and
damaged
Neuropathy
Peripheral nerve damage
Causes of neuropathy
Deficiency of vitamin B12 leads to accumulation of
methylmalonyl CoA
High levels of methylomalonyl CoA is used instead of
malonyl CoA for fatty acid synthesis
Myelin synthesized with these abnormal fatty acids is
unstable and degraded causing neuropathy
 OTHER WATER-SOLUBLE VITAMINS
VITAMIN C

Vitamin C or ascorbic acid is a cofactor for mixed function oxidases
involved in the hydroxylation of Lys and Pro, synthesis of carnitine, synthesis of
norepinephrine, absorption of iron by reducing it to the ferrous state in the
stomach
Hydroxylation of Proline and Lysine is catalized
by peptidyl hydroxylases; prolyl hydroxylase and
lysyl hydroxylase

Deficiency of vitamin C required for
hydroxylase results in scurvy in which bleeding
gums, swelling joins and impaired wound
healing results from the impaired stability of
collagen
C vitamin Deficiency

Capillary fragility
Scurvy
Decreased wound healing osteoporosis, hemorrahaging
and anemia

Since C vitamin is required for normal leukocyte function
and for histamine level decrease, it is recommended for
prevention of cold.
Smoking causes lower C vitamin levels.