Amphipathic Molecules: Components of Blood
Erythrocytes - Metabolism
RBCs use glucose as its only (absolute) energy source - glucose is preferred energy source for brain neurons
Plasma
in vivo- extracellular fluid in the blood - in vitro - extracellular fluid portion of the blood when an appropriate anticoagulant is added and then is centrifuged, the overlying fluid is plasma (no consumption of fibrinogen)
Folic Acid
present in green vegetables, some fruits and liver Deficiency -> anemia, neural tube defects in fetus
Hypoxia as a regulator for RBC production
when there is low oxygen, it stimulates a release of erythropoietin from the kidneys (takes hours) which then stimulates bone marrow to produce RBCs (takes days)
Use of glucose in RBCs
- 90-95% of glucose - for generating ATP through glycolysis - 5-10% of glucose - for the hexose monophosphate pathway (HM) or pentose phosphate pathway) to produce NADPH (prevent hemolysis) - NADPH can reduce oxidative stress (O2-, free radicals)
Principle of Amphipathic Molecules
- Contain both polar (hydrophilic) head group and nonpolar (hydrophobic) tail group in their structures - Ex: Membrane phospholipids, pulmonary surfactants, bile acids, transport proteins in blood for lipids
Platelets
- Formed in bone marrow from megakaryocytes - Do not have nuclei - cannot reproduce - contain actin, myosin and thrombosthenin (contractile proteins) which cause contraction when activated - Contain mitochondria - form ATP for energy and ADP for vasoconstriction and synthesize prostaglandins that cause vascular reactions
Cell membrane of Platelets
- coat of glycoproteins - repulse adherence to normal endothelium and yet causes adherence to injured area of vessel wall (endothelial cell and collagen) - rich in phospholipids - coagulation
Major Components of Plasma
- water - 93% - proteins - 7% - albumin, globulins, fibrinogen - Small M.W. material - ~0.1% - nutrients, catabolic products, electrolytes, hormones - Lipids are included in the proteins section because they are transported through the blood on lipoproteins
Sites of RBC production
- embryonic stage - yolk sac, liver, lymphoid tissue - after birth - bone marrow - most essential regulator of production - hypoxia
Characteristics of Erythrocytes
- mature mammalian RBCs are non-nucleated and lack most organelle including mitochondria - Metabolically active because they have to transport oxygen and CO2 throughout the body constantly and they can only do this through glycolysis which produces 2 ATP - Biconcave in shape because they need to maximize contact area in order to load and unload oxygen and CO2
Maturation of RBC
- requires vitamin B12 and folic acid
Hydrophilic and Hydrophobic Substances
- water is a polar solvent and tends to interact better with polar (hydrophilic) molecules - Amino acids, proteins, carbohydrates, and nucleotides are highly polar - water soluble - The bulk of any lipid molecule is non polar (symmetrical) - water insoluble (hydrophobic), yet soluble in non polar solvents such as benzene
Vit B12
-extrinsic factor, needs intrinsic factor form GI tract for absorption Malabsorption of B12 -> pernicious anemia
Major Components of Blood
Cellular fraction - erythrocytes, leukocytes, thrombocytes Noncellular fraction of the blood - plasma, serum Major components of plasma - water, proteins, other
Cellular fraction of the blood
Cellular fraction is 40-45% of blood volume (hematocrit) - erythrocytes - most of cell mass - Leukocytes - body defense, granulocytes (neutrophils, eosinophils, basophils), granulocytes (lymphocytes, monocytes) - Thrombocytes - fragments of megakaryocytes
Serum
overlying extracellular fluid in blood after clot formation - blood removed from the vascular system will clot (fibrinogen is consumed by converting into insoluble fibrin) - the fluid portion after blood clot formation is serum - serum = plama - clotting factors
