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Transcript of OXIGEN & CARBON DIOXIDE TRANSPORT Biochemistry Departement Medical Faculty Of Andalas University...
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OXIGEN & CARBON DIOXIDE OXIGEN & CARBON DIOXIDE TRANSPORTTRANSPORT
Biochemistry Departement Biochemistry Departement
Medical Faculty Of Andalas Medical Faculty Of Andalas University University
PadangPadang
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Oxygen Transport
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Total Body Oxygen Stores
• Oxygen in the Lung (~500 ml O2).
• Oxygen in the Blood (~850 ml O2).
• Oxygen in the Cells (very little except Mb-bound).
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At the Lung Level
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At the Tissue Level
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Oxygen Is Carried in Blood in 2 Forms
• Bound to hemoglobin in red blood cells.
• Dissolved in plasma. Normally insignificant.
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Hemoglobin
• Each “heme” molecule is capable of binding with 1 O2 molecule and each “globin” molecule is capable of binding with 1 CO2 molecule.
• So, each molecule of Hb can bind to either 4 molecules of O2 and 1 molecule of CO2
• 100 ml of blood has about 15 gm of Hb, at Hct = 0.45
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• Binding of O2 to 4 heme sites given by:
42232
32222
2222
22
)()(
)()(
)(
OHbOOHb
OHbOOHb
OHbOHbO
HbOOHb
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Oxygen as Oxyhemoglobin
• Each gram of Hb can store about 1.34 ml of O2:
• 1 L of blood (150 gm of Hb) can store about 208 ml of O2 Oxygen Capacity of Hb.
• With normal cardiac output, about 1040 ml of O2 can be carried in blood per minute. (4 times of the metabolic demands).
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O2 Saturation.
• Units: percent.
• Fraction or percentage of all the hemoglobin binding sites that are currently occupied by oxygen.
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100Hb ofcapacity O
Hb with combined O )saturation (% S
2
2HbO2
Oxygen Saturation of Hb
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Four (5-6?) Things Change Oxyhemoglobin Affinity
1. Hydrogen Ion Concentration, [H+]
2. Carbon Dioxide Partial Pressure, PCO2
3. Temperature
4. [2,3-DPG]
5. Special Case: Carbon Monoxide
6. Hemoglobin variants
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Factors Affecting Hb-O2 Affinity: Summary
• Hydrogen Ion: – Increased H+ (decreased pH) increases H+ binding to Hb
and reduces O2 affinity (HbO2+H+HbH++O2).
• Carbon Dioxide (Bohr effect):– Increased PCO2 increases CO2 binding to Hb and reduces
O2 affinity (increased O2 delivery to tissue).
– Increased PCO2 increases H+ and reduces O2 affinity (fixed acid Bohr effect).
• Temperature and 2,3-DPG (diphosphoglycerate): – Increased temperature and 2,3-DPG reduces O2 affinity.
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Effect of CO & Anemia on Hb-OEffect of CO & Anemia on Hb-O22 Affinity Affinity
Normal blood with Hb=15 gm/dl, anemia with Hb=7.5 gm/dl, and normal blood with 50% HbCO (carboxyhemoglobin).
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Exercise
• Increase temperature
• Increased PCO2 and
• Decreased pH (acidosis)
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2,3-DPG
• 2,3-DPG is a glycolytic intermediate– accumulates to uniquely high levels in RBCs
-Increased 2,3-DPG right shift
-Decreased 2,3-DPG left shift
• Increased 2,3-DPG associated with hypoxia.
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Conditions with Increased 2,3-DPG
• acclimatization to high altitudes.
• chronic lung disease; emphysema.
• anemia.
• hyperthyroidism.
• right to left shunt.
• congenital heart disease.
• pulmonary vascular disease.
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Carbon Dioxide Transport
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At the Tissue Level
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At the Lung Level
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Carbon Dioxide Transport
• CO2 is transported in blood in dissolved form, as bicarbonate ions, and as protein-bound carbamino compound.
• Protein-bound CO2 (carbamino compounds):
• Amount of CO2 stored as carbamino compounds is about 21 ml/L (4% of the total art CO2).
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Carbon Dioxide Transport• A majority amount of CO2 is transported in the
form of bicarbonate ions (HCO3-):
• Amount of CO2 in HCO3- form at PCO2=40
mmHg is about 420 ml/L (90% of the total arterial CO2).
-HCOHCOH OH CO 332CA
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Carbon Dioxide Transport
• Haldane Effect: Increasing O2-saturation reduces CO2 content and shifts the CO2 dissociation curve to right. This is because, increasing PO2 leads to :– Decrease in the formation of carbamino compound.– Release of H+ ions from the hemoglobin and resulting
in dehydration of HCO3-.
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Carbon Dioxide Dissociation Curve
Over the normal physiological range (PCO2 CO2 = 30 to 55 mmHg and PO2 O2 = 40 to 100 mmHg), the CO22 equilibrium curve is nearly linear. But, O22 equilibrium curve is highly nonlinear.
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Bicarbonate in RBCs.
• Carbonic anhydrase is present in RBCs• CO2 forms carbonic acid which
dissociates to H+ and HCO3-
• Released H+ is buffered by histidine residues (imidazole group)
CO H O H CO H HCO2 2 2 3 3 Carbonic Anhydrase
• Percent of the total PaCO2: 70%
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Carbamino Compounds in RBCs.
• Approximately 30% of RBC contents is Hb
• CO2 forms carbamino hemoglobin
• Released H+ is buffered by histidine residues (imidazole group)
• Percent of the total PaCO2: 23 %
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CO2 Formation in Plasma
• Carbamino compounds– CO2 binds the amine groups of plasma
proteins to form carbamino compounds.
R NH CO R NH COO H 2 2
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Chloride Shift (Hamburger Shift)
• Newly formed HCO3- passes out of RBC
• Cl- diffuses into RBC to maintain electroneutrality– Chloride shift is rapid– Complete before the RBCs exit capillary
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Tissue-Gas Exchange: Summary
• Gas exchange processes in the peripheral organs are essentially opposite those in the lungs.
• O2 is released from the capillary blood to the tissues and diffuses to the mitochondria energy (ATP) through cellular metabolism.
• CO2 diffuses from the tissues to the blood stream and is transported to the lungs for elimination.
• The exchange of O2 and CO2 in the blood-tissue exchange unit depends on PO2, PCO2, and also on O2 and CO2 saturation curves.
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Resources
• BIOEN 589: Integrative Physiology. Download 24 jan 05.
• Kennelly, PJ., Rodwell, V W. Proteins: Myoglobin & Hemoglobin. In: Harper’s Illustrated Biochemistry. 27th Ed. 41- 8.
• Miliefsky, M. Respiratory System Ch.23. Download 24 Nov 10.• Sheardown, H. Blood Biochemistry. McMaster University.
Download 20 Mei 07. • Irvin, CG. Respiratory Physiology. Lecture 4A CO2 Transport. In:
MEDICAL PHYSIOLOGY 30. Download 22 Jun 09.• Marks, DB., Marks, AD., Smith CM. Basic medical biochemistry: a
clinical approach. 1996. Dalam: B.U. Pendit, penerjemah. Biokimia Kedokteran Dasar: Sebuah Pendekatan Klinis. Eds. J. Suyono., V. Sadikin., L.I. Mandera. Jakarta: EGC, 2000
• R.K. Murray, D.K. Granner, P.A. Mayes, V.W. Rodwell Harper’s Biochemistry. 27th ed. McGraw-Hill Companies, New York. 2006.