Plasma Proteins Overview Electrophoretic patterns of plasma proteins

Overview: • Electrophoretic patterns of plasma proteins • Functions and characteristics of plasma proteins

Plasma Proteins (pps) �Plasma contains >300 different proteins �Many pathological conditions affect level of

GENERAL PROPERTIES OF PLASMA PROTEINS MOST ARE SYNTHESIZED IN THE LIVER • Exception: -globulins

Fractions of plasma proteins Fraction Rel. amount (%) c (g/l) Albumins: albumin, pre-albumin (transthyretin)

Types of Plasma Proteins Prealbumin Albumin α 1 -Globulins: 1 -Antitrypsin, α-fetoprotein α 2

Important. Types of plasma proteins 1. Albumin 2. Globulins a-globulins : a 1 a

FUNCTIONS OF PLASMA PROTEINS TRANSPORT OF SUBSTANCES : e. g. albumin – fatty acids,

FUNCTIONS OF PLASMA PROTEINS (cont. ) (cont. OSMOTIC REGULATION: Plasma proteins are colloidal and

FUNCTIONS OF PLASMA PROTEINS (cont. ) (cont. PROTECTIVE FUNCTION: Immunoglobulins combine with foreign antigens

FUNCTIONS OF PLASMA PROTEINS (cont. ) (cont. BLOOD CLOTTING: Many factors are involved in

PLASMA PROTEINS AS ANTIOXIDANTS Transferrin Ferritin Ceruloplasmin Haptoglobin Hemopexin (binds heme and transfers it

Measurement of Plasma Proteins A) Quantitative measurement of a specific protein: Chemical or immunological

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Plasma Proteins

Overview: • Electrophoretic patterns of plasma proteins • Functions and characteristics of plasma proteins • Measurement of plasma proteins and diagnosis of diseases • Acute phase proteins

Plasma Proteins (pps) �Plasma contains >300 different proteins �Many pathological conditions affect level of pps �Mostly synthesized in the liver �Some are produced in other sites

GENERAL PROPERTIES OF PLASMA PROTEINS MOST ARE SYNTHESIZED IN THE LIVER • Exception: -globulins – synthesized in plasma cells Synthesized as pre-proteins on membrane-bound polyribosomes; then they are subjected to posttranslational modifications in ER and Golgi apparatus ALMOST ALL OF THEM ARE GLYCOPROTEINS • Exception: albumin They have characteristic half-life in the circulation (albumin – 20 days) Many of them exhibit polymorphism (immunoglobulins, transferrin…)

Fractions of plasma proteins Fraction Rel. amount (%) c (g/l) Albumins: albumin, pre-albumin (transthyretin) 52 – 58 34 – 50 1 -globulins: thyroxin-binding globulin, transcortin, 1 -acid glycoprotein, 1 -antitrypsin, 1 lipoprotein (HDL), 1 -fetoprotein 2. 4 – 4. 4 2 -4 2 -globulins: haptoglobin, macroglobulin, ceruloplasmin 6. 1 – 10. 1 5 – 9 -globulins: transferrin, hemopexin, lipoprotein (LDL), fibrinogen, C-reactive protein, C 3 and C 4 components of the complement system 8. 5 – 14. 5 6 – 11 10 – 21 8 – 15 -globulins: Ig. G, Ig. M, Ig. A, Ig. D, Ig. E

Types of Plasma Proteins Prealbumin Albumin α 1 -Globulins: 1 -Antitrypsin, α-fetoprotein α 2 -Globulins: Ceruloplasmin, haptoglobin β-Globulins: CRP, transferrin, β 2 -microglobulin γ- Globulins

Important. Types of plasma proteins 1. Albumin 2. Globulins a-globulins : a 1 a a 2 -globulins b-globulins: b 1 a b 2 -globulins g-globulins 3. Fibrinogen Under different pathological conditions the protein levels depart from the normal range.

FUNCTIONS OF PLASMA PROTEINS TRANSPORT OF SUBSTANCES : e. g. albumin – fatty acids, bilirubin, calcium, drugs transferin – iron cerulplasmin – copper transcortin – cortisol, corticosteron lipoproteins – lipids haptoglobin – free hemoglobin thyroxin binding globulin – thyroxin retinol binding protein - retinol

FUNCTIONS OF PLASMA PROTEINS (cont. ) (cont. OSMOTIC REGULATION: Plasma proteins are colloidal and non-diffusable and exert a colloidal osmotic pressure which helps to maintain a normal blood volume and a normal water content in the interstitial fluid and the tissues. Albumin content is most important in regulation of colloidal osmotic or oncotic pressure. Decrease in albumin level results in loss of water from blood and its entry into interstitial fluids causing edema. CATALYTIC FUNCTION (enzymes): e. g lipases for removal of lipids from the blood

FUNCTIONS OF PLASMA PROTEINS (cont. ) (cont. PROTECTIVE FUNCTION: Immunoglobulins combine with foreign antigens and remove them. Complement system removes cellular antigens. Enzyme inhibitors remove enzymes by forming complexes with them. e. g. a 1 -antitrypsin combines with elastase, trypsin and protects the hydrolytic damage of tissues such as lungs. Some proteins increase during acute phase and protect the body. E. g. a 1 -antitrypsin, a 2 -macroglobulins.

FUNCTIONS OF PLASMA PROTEINS (cont. ) (cont. BLOOD CLOTTING: Many factors are involved in clotting mechanism and prevent loss of excessive amount of blood; e. g. clotting factors IX, VIII, thrombin, fibrinogen etc. An excess of deficiency leads to a disease; e. g. hemophilia, thrombus formation ANTICOAGULANT ACTIVITY (thrombolysis): Plasmin breaks down thrombin and dissolves the clot BUFFERING CAPACITY: Proteins in plasma help to maintain acid-base balance

PLASMA PROTEINS AS ANTIOXIDANTS Transferrin Ferritin Ceruloplasmin Haptoglobin Hemopexin (binds heme and transfers it to the liver) act as antioxidants: remove Fe 2+ and thus prevent the Fenton reaction: • H 2 O 2 + Fe 2+ → HO • + OH− + Fe 3+

Measurement of Plasma Proteins A) Quantitative measurement of a specific protein: Chemical or immunological reactions B) Semiquantitative measurement by electrophoresis: � Proteins are separated by their electrical charge in electrophoresis � Five separate bands of proteins are observed � These bands change in disease