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67366
Iron Metabolism
Description
Biochemistry Mind Map on Iron Metabolism, created by hardinbc on 02/05/2013.
No tags specified
biochemistry
biochemistry
Mind Map by
hardinbc
, updated more than 1 year ago
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Created by
hardinbc
over 11 years ago
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Resource summary
Iron Metabolism
Reactions
redox
accept e-
ferrous (Fe2+)
donate e-
ferric (Fe3+)
physiology
electron transport
Fe-S clusters, cytochromes
respiratory chain
pathophys
free Fe
lipid peroxidation
PUFAs
atherogenesis
Fenton
free radical formation
ROS
H2O2
free iron
injured tissue
breakdown of heme
Distribution
major
hemoglobin
RBC
1800 mg
minor
muscle fibers
300 mg
liver
1000 mg
macrophages
600 mg
Transport/Storage
plasma
transferrin
30% saturated
cell storage
ferritin
interact w/ ceruloplasmin or hephaestin
binds transferrin
transported
other binders
neutrophils
lactoferrrin
tissue injury
hemosiderin
mitochondrial storage protein
frataxin
Steps of Metabolism
1) intestinal absorption of ferrous
stomach
low pH
reduce iron (III) --> (II)
intestines
alkaline environment
heme
direct absorption
mucosal cells
iron dissociates
free iron
oxidized
(II)-->(III)
reduced again
taken up by mucosal
transport across epithelium
apical
DMT1
basolateral
ferroportin
requires hepaestin
regulation
dietary regulator
short term
decrease DMT1
stores regulator
hepcidin
responds to total body iron
25 aa peptide
regulate export
intestinal cells
macrphages
hepatocytes
inactivates ferroportin
induces internalization
lysosomal degradation
synthesis regulation
activates
inflammation
inhibits
iron deficiency
increased erythropoiesis
hypoxia
erythropoietic regulator
modulate reabsorption based on erythropoiesis requirements
no reponse to iron
3) cellular uptake and storage in ferritin and frataxin
transferrin receptor
uptake at PM
di-ferric transferrin internalized
endocytosis
regulation
IRP-1
cytosolic aconitase
RNA binding protein
cells iron depleted
cell ironreplet
senses iron depletion/oxidative stress
activation
binds 2 mRNAs
ferritin IRE
5' untranslatable regioon
inhibits translation
transferrin receptor
3' untranslatable region
increases translation
overall effect
decrease ferritin synthesis
increase transferrin receptor synthesis
increase cellular uptake
2) plasma transport by transferrin
Fe (III) delivered to apo-transferrin
transport to diff tissues
binds 2 Fe (III) atoms
from bone marrow
Nutrition
dietary sources
liver, red meat, eggs, whole grain, dried fruit, beans, drinking water, iron cooking pots
SPINACH
absorption
enhanced
ascorbic acid, dietary protein, erythropoiesis, hypoxia, low stores
inhibited
oxalic acid, coffee, tea, bran, egg yolk, soybean products, calcium, polyphenols, excess metals, inflammation, achlorydria
excretion
limited capacity
transferrin bound
not excreted in kidney
chelators
excretable
hemorrhage
Disease
deficiency
anemia
impaired immune resonse
initial
no symptoms
diagnosis
< 20% transferrin sat
treatment
ferrous sulfate
packed RBCs
iron overload
acute iron poisoning
hypotension
metablolic acidosis
coma
chronic iron overload
patients who receive transfusions
congenital anemias
ineffective erythropoiesis
increased iron absorption
certain anemias
destroy erythrocytes in bone marrow
signal erythroid regulator
increased iron absorption
conditions
thalassemias
sideroblastic anemias
Hereditary Hemochromatosis HH)
iron overload
mutation
HFE gene
caucasian
carrier = 1/10
TFR2
HJV
absorb/store too efficiently
symptoms
iron accumulation
oxidative damage in these tissues
liver
cirrhosis
heart
cardiomyopathy
pancreas
DM
skin
pigmentation
joints
polyarthropathy
gonads
hypogonadotrophic hypogonadism
treatment
phlebotomy
chelators
before organ damage
Anemia of chronic disease (ACD)
impaired utilization of iron
no deficiency/excess
defect
blockage
stores --> erythroid precursors
treatment
underlying cause
disease leads to ACD
chronic infections
inflammatory bowel disease
neoplasia
autoimmune disease
mechanism
inflammatory cytokines
IL6
Hepcidin upregulated
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