Iron metabolism Flashcards
(27 cards)
for iron (micromineral) we require
8-18 mg/day
3-4g in our bodies
can be toxic (reactive oxygen species)
found in heme-bound form and non-heme
iron functions
oxygen transport
respiration (ETC)
detoxification (SOD, P450s)
nitrogen fixation (bacteria)
sources of iron
red meant, poultry, fish, beans, lentils, fortified foods
Iron regulation
tightly regulated absorption
there is no regulation of iron excretion
iron can be toxic
requirements vary with sex and age
Iron distribution
muscle -> myoglobin
bone marrow -> RBC production
circulating erythrocytes -> hemoglobin
liver -> main storage organ
intestine -> main iron absorption organ
reticuloendothelial macrophages -> destruction of RBC
Iron absorption
heme iron from meat
non-heme iron from plants
takes place in intestine
iron utilization
bone marrow for RBC production
RBC for oxygen transport
iron storage
liver
Iron absorption
non-heme
duodenal cytochrome b
divalent metal transporter
ferritin
less efficient
iron absorption
heme
heme carrier protein
heme oxygenase
ferritin
more efficient
iron intracellular storage: ferritin
24 monomers arranged in sphere
can be measured
ferroxidase activity
positive acute phase reactant
Iron export
Ferroportin -> only iron exporter
Hephaestin -> oxidizes iron
Tranferrin -> binds and transports iron
Iron export takes place from
enterocytes
hepatocytes
RE macrophages
Iron import
tranferrin -> binds and transports iron
tranferrin receptor -> binds Tf-Fe and internalizes it
divalet metal transporter -> export iron out of endosome
iron import takes place from
erythroid cells
hepatocytes
how control iron transport?
hepcidin
erythroferrone
nutritional immunity
negative acute phase reactant
hepcidin
iron withholding
Nutritional immunity
iron required for bacterial growth
reducing iron availability can slow down an infection
infections induce inflammatory response
nutritional immunity:
increase hepcidin
decrease serum iron
decrease bacterial growth
Iron homeostasis and translational regulation
low iron: IRP binds IRE and that allows for more translation for more iron in bodies
high iron: IRP does not bind and mRNA is degraded so no TtR made
iron deficiency
anemia: low hemoglobin
extreme fatigue
dizziness
usually not fatal
multiple causes
iron deficiency
RBCs
carry hemoglobin
iron def. affects RBC size/color
microcytic hypochromic anemia
how to assess iron status
look at:
ferritin
transferrin
transferrin receptor
anemia
pregnant women
poor absorption
dietary restrictions
blood loss
prevent anemia
iron
vitamin C
folate
vitamin B12
