Plasma Proteins Introduction
The plasma proteins are:
Table of Contents
- Serum albumin
- Serum globulin
- Fibrinogen.
The serum contains only albumin and globulin. The fibrinogen is absent in serum because it is converted into fibrin during blood clotting. Because of this, albumin and globulin are usually called serum albumin and serum globulin.
Read And Learn More: Medical Physiology Notes
Plasma Proteins Normal Values
The normal values of the plasma proteins are:
Total proteins: 7.3 g/dL (6.4-8.3 g/dL)
- Serum albumin 4.7 g/dL.
- Serum globulin: 2.3 g/dL
- Fibrinogen: 0.3 g/dL
Albumin/Globulin Ratio
- The ratio between the plasma level of albumin and globulin is called Albumin/Globulin (A/G) ratio.
- It is an important indicator of some diseases involving liver or kidney.
- The normal A/G ratio is 2:1. Variations of this are given in Table.
Plasma Proteins Separation
Separation Of Plasma Proteins
The plasma proteins are separated by the following methods.
1. Precipitation Method: Proteins in the serum are separated into albumin and globulin. This is done by precipitating globulin with a 22% sodium sulfate solution. The albumin remains in solution.
2. Salting Out Method:
- Serum globulin is separated into two fractions called euglobulin and pseudo globulin by salting out with different solutions.
- Euglobulin is salted out by full saturation with sodium chloride solution; half saturation with magnesium sulfate solution and, one-third saturation with ammonium sulfate solution.
- It is insoluble in water. Pseudoglobulin is salted out by full saturation with magnesium sulfate and, half saturation with ammonium sulfate.
- It is soluble in water but it cannot be salted out by sodium chloride solution.
3. Electrophoretic Method
- In this, the plasma proteins are separated depending on their differences in electrical charge and the rate of migration. It is done in a Tiselius apparatus by using paper or cellulose or starch block.
- By this method, the proteins are separated into albumin (55%), alpha globulin (13%), beta globulin (14%), gamma globulin (11%), and fibrinogen (7%).
4. Cohn’s Fractional Precipitation Method: By this method, plasma proteins are separated into albumin and different fractions of globulin depending upon their solubility.
5. Ultracentrifugation Method: In this method, albumin, globulin, and fibrinogen are separated depending upon their density. This method is also useful in determining the molecular weight of these proteins.
6. Gel Filtration Chromatography:
- It is a column chromatographic method by which the proteins are separated on the basis of size.
- Protein molecules are separated by passing through a bed of porous beads. The diffusion of different proteins into the beads depends upon their size.
7. Immunoelectrophoretic Method: By this method, the proteins are separated on the basis of electrophoresis patterns formed by precipitation at the site of antigen-antibody reactions.
This technique provides valuable quantitative measurement of different proteins.
Properties Of Plasma Proteins
1. Molecular Weight
Albumin: 69,000
Globulin: 1,56,000
Fibrinogen: 4,00,000
Thus, the molecular weight of fibrinogen is greater than that of the other two proteins.
2. Oncotic Pressure: The plasma proteins are responsible for the oncotic or osmotic pressure in the blood. The osmotic pressure exerted by proteins in the plasma is called colloidal osmotic (oncotic) pressure. Normally, it is about 25 mm Hg. Albumin plays a major role in exerting oncotic pressure.
3. Specific Gravity: The specific gravity of the plasma proteins is 1.026.
4. Buffer Action: The acceptance of hydrogen ions is called buffer action. The plasma proteins have 1/6 of total buffering action of the blood.
Origin Of Plasma Proteins
In Embryo: In the embryonic stage, the plasma proteins are synthesized by the mesenchyme cells. The albumin is synthesized first and other proteins are synthesized later.
In Adults: In adults, the plasma proteins are synthesized mainly from the reticuloendothelial cells of the liver. The plasma proteins are synthesized also from the spleen, bone marrow, since- grating blood cells, and general tissue cells. Gamma globulin is synthesized from B lymphocytes.
Functions Of Plasma Proteins
The plasma proteins are very essential for the body. Functions of the plasma proteins are:
1. Role In Coagulation Of Blood: Fibrinogen is essential for the coagulation of blood.
2. Role In Defense Mechanism Of Body:
- The gamma globulins play an important role in the defense mechanism of the body by acting as antibodies (immune substances). These proteins are also called immuno- globulins.
- The antibodies react with antigens of various microorganisms, which cause diseases like diphtheria, typhoid, streptococcal infections, mumps, influenza, measles, hepatitis, rubella, poliomyelitis, etc.
3. Role In Transport Mechanism: Plasma proteins are essential for the transport of various substances in the blood. Albumin, alpha globulin, and beta globulin are responsible for the transport of hormones, enzymes, etc. The alpha and beta globulins play an important role in the transport of metals in the blood.
4. Role In Maintenance Of Osmotic Pressure In Blood:
- At the capillary level, most of the substances are exchanged between the blood and the tissues. However, because of their large size, the plasma proteins cannot pass through the capillary membrane easily and remain in the blood.
- In the blood, these proteins exert the colloidal osmotic (oncotic) pressure. The osmotic pressure exerted by the plasma proteins is about 25 mm Hg.
- Since the concentration of albumin is more than the other plasma proteins, it exerts maximum pressure. Globulin is the next and fibrinogen exerts least pressure.
Importance of Osmotic Pressure- Starling’s Hypothesis
- Osmotic pressure exerted by the plasma proteins plays an important role in the exchange of various substances between the blood and the cells through the capillary membrane.
- According to Starling’s hypothesis, the net filtration through the capillary membrane is proportional to the hydrostatic pressure difference across the membrane minus the oncotic pressure difference.
5. Role In Regulation Of Acid-Base Balance: Plasma proteins, particularly albumin, -play an important role in regulating the acid-base balance in the blood. This is because of the virtue of their buffering action. Plasma proteins are responsible for 15% of the buffering capacity of blood.
6. Role In Viscosity Of Blood: The plasma proteins provide viscosity to the blood, which is important to maintain the blood pressure. Albumin provides maximum viscosity than the other plasma proteins.
7. Role In Erythrocyte Sedimentation Rate (Esr): Globulin and fibrinogen accelerate the tendency of rouleaux formation by the red blood cells. Rouleaux formation is responsible for ESR, which is an important diagnostic and prognostic tool.
8. Role In Suspension Stability Of Red Blood Cells: During circulation, the red blood cells remain suspended uniformly in the blood. This property of the red blood cells is called suspension stability. Globulin and fibrinogen help in the suspension stability of the red blood cells.
9. Role In Production Of Thephone Substances: Traphone substances are necessary for the nourishment of tissue colls in culture. These substances are produced by leukocytes from the plasma proteins.
10. Role As Reserve Proteins:
- During fasting, inadequate food intake or inadequate protein intake, the plasma proteins are utilized by the body tissues as the last source of energy.
- The plasma proteins are split into amino acids by the tissue macrophages. The amino acids are taken back by blood and distributed throughout the body to form cellular protein molecules. Because of this, the plasma proteins are called the reserve proteins.
Plasmapheresis
Plasmapheresis Definition; Plasmapheresis is an experimental procedure done in animals to demonstrate the importance of plasma proteins. Earlier, this was called Whipple’s experiment because it was established by George Hoyt Whipple.
Plasmapheresis Procedure
- It is demonstrated in dogs. The blood is removed completely from the body of the dog.
- Red blood cells are separated from plasma and are washed in saline and reinfused into the body of the same dog along with a physiological solution called Locke’s solution.
- Due to the sudden lack of proteins, the animal undergoes a state of shock.
- If the animal is fed with diet containing a sufficiently high quantity of proteins, the normal level of plasma proteins is restored within seven days and the animal survives.
- The new plasma proteins are synthesized by the liver of the dog.
- If the experiment is done in animals after the removal of liver, even if the diet contains adequate quantity of proteins, the plasma proteins are not produced. The shock persists in the animal and leads to death.
- Thus, the experiment ‘plasmapheresis’ is used to demonstrate
- The importance of plasma proteins for survival
- The synthesis of plasma proteins by the liver.
Clinical Significance Of Plasmapheresis- Therapeutic Plasma Exchange
- Plasmapheresis is used as a blood purification procedure for an effective temporary treatment of many autoimmune diseases. It is also called therapeutic plasma exchange.
- In an autoimmune disease, the immune system attacks the body’s own tissues through antibodies.
- The antibodies that are proteins in nature circulate in the bloodstream before attacking the target tissues. Plasmapheresis is used to remove these antibodies from the blood.
Procedure Of Plasmapheresis
- Venous blood is removed from the patient and blood cells are separated from plasma by the equipment called cell separator. This equipment works on the principle of a centrifuge.
- An anticoagulant is used to prevent the clotting of blood when it is removed from the body. After the separation of blood cells, the plasma is discarded.
- The blood cells are returned to the bloodstream of the patient by mixing with a substitute fluid (saline) and sterilized human albumin protein.
Uses of Plasmapheresis
- Though plasmapheresis is used to remove antibodies from
the blood, it cannot prevent the production of antibodies by the immune system of the body. - So, it can provide only a temporary benefit of protecting the tissues from the antibodies. The patients must go for repeated sessions of this treatment.
- Plasmapheresis is an effective temporary treatment for the following diseases:
- Myasthenia gravis autoimmune disease causing muscle weakness
- Thrombocytopenic purpura- bleeding disorder.
- Paraproteinemic peripheral neuropathy – dysfunction of the peripheral nervous system due to an abnormal immunoglobulin called paraprotein
- Chronic demyelinating polyneuropathy-neurological disorder characterized by progressive weakness and impaired sensory function in the legs and arms due to the damage of myelin sheath in peripheral nerves
- Guillain-Barré syndrome – autoimmune disease causing weakness, abnormal sensations (like tingling) in the limbs and paralysis
- Lambert-Eaton myasthenic syndrome – autoimmune disorder of the neuromuscular junction.
Variations In Plasma Protein Level
- The level of plasma proteins vary independently of one another. However, in several conditions, the quantity of albumin and globulin change in opposite directions.
- Elevation of all fractions of plasma proteins is called hyperproteinemia and decrease in all fractions of plasma proteins is called hypoproteinemia.
- The variations in the level of plasma proteins are given in Table.
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