Thursday, May 23, 2019
Biochemistry perspective Essay
Diabetes is an ailment which is ca apply due(p) to high amount of glucose (sugar) in the blood. The main reason for high glucose levels in blood is due to the inability of body to utilize it properly. Glucose comes from the digestion of sugar and foods rich in carbohydrates that enable the liver to create glucose. The high concentration level of glucose in blood is termed as Hyperglycemia. In 1910, Sir Edward Albert Sharpey-Schafer suggested people with diabetes were deficient in a single chemical that was norm aloney produced by the pancreas. He proposed calling this substance insulin.The term is derived from the Latin insula, core island, in reference to the islets of Langerhans in the pancreas that produce insulin. (Patlak, 2002) Insulin An Introduction Insulin is a polypeptide containing 51 amino acids arranged in two chains. The chain A contains 21 amino acids and chain B contains 30 residues. These two chains are cross linked by two sulphur bridges by cysteine residues. Ins ulin is operateed by proteolytic cleavage of its 84 amino acid prescursor Proinsulin. Insulin has a molecular weight of 5808 Da. It has the molecular formula C257H383N65O77S6.Insulin structure varies slightly between species. Its carbohydrate metabolism regulatory function strength in humans likewise varies. Porcine which is pig insulin is close to humans. The image above is computer-generated image of insulin hexamers. The zinc ions holding it unitedly and the histidine residues are involved in zinc binding. Insulin Action A pharmacological action of insulin includes carbohydrate metabolism, protein metabolism, lipid metabolism and other actions. Insulin increases the use of sugar in the tissue and stimulates bringation of glucose into the cells.Insulin also stimulates protein synthesis and growth. It increases synthesis of messenger RNA and decreases gluconeogenesis. A gluconeogenesis is a formation of glucose from glycogen. It also increases amino acid uptake in the muscle. In adipose tissues, insulin increases fatty acid synthesis, glycerol phosphate synthesis and triglyceride deposition. Other action of insulin includes prevention of ketone boy formation and increases potassium uptake. After the emission of insulin from the pancreatic beta cell into the interstitial compartment, it enters the circulation after(prenominal) crossing endothelial barrier.Insulin action effect at the cellular level is achieved by activating and suppressing the natural action of enzyme. It can also be achieved by changing the rate of synthesis of enzymes at the level of transcription and translation. Insulin stimulate glucose uptake into fat cells by glucose transporters. Glucose transporters are small vesicles which contain specialised protein macromolecules. Insulin increases the rate of fusion of these vesicles with the plasm membrane, and activates the transporters to transfer glucose across the plasma membrane into the cell.Insulin synthesize hoxokinase, an enzym e which phosporylates glucose as soon as it enters the cell. Insulin is an anabolic hormone. It encourages the storage of fats and the synthesis of proteins. Each sense organ of insulin contain a equal of alpha subunits, which are located on the outer surface of the membrane, and a pair of beta subunits which crosses the membrane and stick out at both the outer and inner surfaces. Both alpha and beta subunits are held together by disulphide (S-S) bonds to form an aggregate. In humans, the insulin receptor gene is located on chromo whatever 19.Insulin binds to the receptor at a specific site on the alpha subunit. This set abouts increased phosphorylation of the receptor by ATP, mostly tyrosine residues of the intracellular portion of the beta subunit. Increased phophorylation of these tyrosine residues activates the beta subunit to function as a kinase enzyme. Some intracellular cause of insulin that occur after insulin-receptor binding may be mediate through nucleotide regulator y proteins (G proteins) a family of proteins associated with the inner surface of the plasma membrane.Cyclic AMP also has some intracellular effects of insulin. The major function of insulin is to counter the concerted action of a number of hyperglycemia-generating hormones and to maintain low blood glucose levels. Because there are many hyperglycemic hormones, untreated disorders associated with insulin generally lead to severe hyperglycemia and shortened life span. In addition to its role in regulating glucose metabolism, insulin stimulates lipogenesis, diminishes lipolysis, and increases amino acid transport into cells.Insulin also modulates transcription, altering the cell content of numerous mRNAs. It stimulates growth, DNA synthesis, and cell replication, effects that it holds in common with the insulin-like growth factors (IGFs) and relaxin. Specific protease activity cleaves the cracker bonbon third of the molecule, which dissociates as C peptide, leaving the amino termina l B peptide disulfide bonded to the carboxy terminal A peptide. Insulin secretion from beta cells is principally regulated by plasma glucose levels. Increased uptake of glucose by pancreatic b-cells leads to a concomitant increase in metabolism.The increase in metabolism leads to an elevation in the ATP/ adenosine diphosphate ratio. This in turn leads to an inhibition of an ATP-sensitive K+ channel. The net result is a depolarization of the cell leading to Ca2+ influx and insulin secretion. In fact, the role of K+ carry in insulin secretion presents a viable therapeutic target for treating hyperglycemia due to insulin insufficiency. Insulin, secreted by the beta-cells of the pancreas, is directly infused via the portal vein to the liver, where it exerts profound metabolic effects.These effects are the resolution of the energizing of the insulin receptor which belongs to the class of cell surface receptors that exhibit intrinsic tyrosine kinase activity as shown in the figure. Insu lin produces its action through specific insulin receptors which consist of two subunits ? and ?. Insulin receptor complex then initiates a chain of biochemical reaction involving cAMP, protein phosphorylase, protein kinase, phosphatase and lipase. A diabetic condition result when receptor of insulin is desensitization. Therefore, Insulin is used medically in diabetes mellitus.Patients with type 1 diabetes mellitus depend on insulin (comm whole injected subcutaneously) for their survival because they make no hormone. Patients with type 2 diabetes mellitus have both low insulin fruit or insulin confrontation or both. Therefore, they require insulin administration when other medications become inadequate in controlling blood glucose levels. Actions of insulin-insulin receptor interactions at the level of IRS1 and activation of the kinase cascade leading to altered activities of glycogen phosphorylase and glycogen synthase.The insulin receptor is a heterotetramer of 2 extra cellular alpha-subunits disulfide bonded to 2 transmembrane beta-subunits. With respect to hepatic glucose homeostasis, the effects of insulin receptor activation are specific phosphorylation events that lead to an increase in the storage of glucose with a concomitant decrease in hepatic glucose release to the circulation. Only those replys at the level of glycogen synthase and glycogen phosphorylase are saluteed.This image shows Insulin-insulin receptor actions on glycogen homeostasis showing the role of protein targeting glycogen, PTG in complex formations involving many of the enzymes and substrates together. Also diagrammed is answer of insulin at the level of glucose transport into cells via GLUT4 translocation to the plasma membrane. GS/GP kinase = glycogen synthase glycogen phosphorylase kinase. PPI = protein phosphatase inhibitor. Arrows denote either direction of flow or positive effects, T lines represent inhibitory effects.In most nonhepatic tissues, insulin increases glucose uptake by increasing the number of plasma membrane glucose transporters GLUTs. Glucose transporters are in a continuous state of turnover. Increases in the plasma membrane content of transporters stem from an increase in the rate of recruitment of new transporters into the plasma membrane, deriving from a special pool of preformed transporters localized in the cytoplasm. GLUT1 is present in most tissues, GLUT2 is found in liver and pancreatic b-cells, GLUT3 is in the brain and GLUT4 is found in heart, adipose tissue and impecunious muscle.In liver glucose uptake is dramatically increased because of increased activity of the enzymes glucokinase, phosphofructokinase-1 (PFK-1), and pyruvate kinase (PK), the key regulatory enzymes of glycolysis. Lack of Insulin Usually the inefficiency and lack of insulin are bracketed together, as both situations result in diabetes. There are two types of diabetes, diabetes insipidus and diabetes melitus, which is by far, the most common. Diabetes me llitus in turn has two types Type 1, also known as insulin qualified diabetes mellitus, IDDMType 1 is characterized by decreased productions of insulin so must be treated with insulin. It is most often found in children and adolescents. Type 2, also known as non-insulin dependent diabetes melitus, NIDDM Type 2 is caused by either decreased insulin production or abnormal cell sensitiveness to the insulin that is present. It may be treated with diet alone, with oral hypoglycemic agents, or with insulin. It is much commonly diagnosed in adults. (Perspective Press, 240-43) Insulin does not cure diabetes. It is merely a treatment for the diabetes. over time, many complications can occur in diabetic patients taking insulin.Some of these are coronary heart diseases, peripheral vascular diabetes, eye disorders, renal failure, and branch amputations. Because of reduced circulation and nerve damage, diabetic patients are essentially prone to developing find fault ulcers, a major cause o f amputations. They are able to feel foot infections, which allow it to grow and cause permanent damage. Proper foot care is essential and includes bending injuries oral restricting circulations, cleaning wounds, controlling infections, relieving weight from the ulcer area, and astir(p) circulation.A new genetically engineered drug, becaplermin, promotes the healing process in diabetic foot ulcer. Lack of insulin or ineffectiveness of it may trigger some response from the body. The predominant tissue responding to signals that indicates fluctuating blood glucose levels is the liver. One of the most important functions of the liver is to produce glucose for circulation. Both elevated and reduced levels of blood glucose trigger hormonal responses to initiate pathways designed to restore glucose homeostasis. Low blood glucose triggers release of glucagon from pancreatic Alpha-cells.High blood glucose triggers release of insulin from pancreatic Beta-cells. In elderly people pancreas e ither fails or does not secrete right amount of insulin. In this patient insulin per guesswork becomes drug of choice when oral antidiabetics have failed. Insulin was also used to form shocks in schizophrenics. Insulin secretion is controlled by concentrations circulating glucose, amino acids, and fatty acids, various hormones and neuron-transmitter agents. In the fasting state, when glucose concentrations are low, insulin secretion is minimal.As glucose concentrations rise after the utilizing carbohydrates meal the raised glucose concentration stimulates insulin secretion. Insulin resistance develops over time. Therefore, doses have to be increased. This occurs because of the development of insulin antibodies in the blood. This also can be somewhat corrected by changing the type of insulin injection and by giving cortiscosteroids which are immunity suppressant drugs. Yet, it also produces negative effect by increasing blood sugar and this is why they are not used. Types of Insul inThere are many types of insulin and many salt forms of it. It can be derived synthetically of from different animal sources such as boeuf and pork. There is now genetically engineered human insulin available. Different insulin differs in the onset of action and the duration of action. Some are mixed together to achieve a desired effect such as a quick onset but a longer duration of action. The most common mixtures is regular insulin with NPH insulin (70units NPH and 30 units regular insulin per milliliter) The different categories of insulins are 1.Short-acting insulin types regular insulin (crystalline zinc insulin), semilente insulin (prompt insulin zinc suspension), insulin lipsor 2. Intermediate acting insulin types NPH (isophane insulin suspension) and linte insulin (insulin zinc suspension) 3. Long-acting insulin types PZI (protamine zinc insulin suspension) and ultralente insulin (extended insulin zinc suspension). Administration Insulin is injection instead of giving ora lly because it is washed-up in the gastrointestinal tract. Also, the molecule is too large to be absorbed by the intestinal membrane.Therefore, injection of alcohol-soluble crystalline insulin is apt(p) by subcutaneous injection which is quickly absorbed. Peak effects of insulin are achieved quickly and also excreted quickly within a few hours. However some insulin such as simelente is absorbed slowly. The peak is reached slowly and is sustained. This type of insulin excretion is also very slow and sometimes partly destroyed by insulinase enzyme in the liver. Controlling glucose level with insulin injections is a complex task since a) Glucose concentrations fluctuate based on food ingestion. b) Cell sensitivity to insulin changes.Exercise increases sensitivity while stress, pregnancy, and some drug decrease insulin sensitivity. As a result some diabetic patients take multiple injections for a short-acting insulin preparation to produce peaks in insulin concentrations and a long a cting formulation to establish a baseline concentration. Variable rate infusion pumps are also used. Patients who use insulin need to be instructed on the rotation method of taking their medication. Insulin is absorbed more rapidly with administration in the arm or thigh, especially with exercise. The abdomen is used for more consistent absorption.Glucose levels should be checked as per physician orders. All insulin must be checked for expiration date and clarity of the solution. Insulin should not be given if it appears cloudy. Vials should not be shaken but rotated in between the hands to mix contents. If regular insulin is to be mixed with NPH or lente insulin, the regular insulin should be drawn into the syringe first. Unopened vials should be stored in the refrigerator, and freezing should be avoided. The vial in use can be stored at room temperature. Vials should not be put in glove compartments, suitcase, or trunks.Humulin is a new type of insulin and is often the patients pr eference because it can be taken orally. It is imperative that the physician be called if any adverse reactions to the medications are observed. (Jahangir Moini, P 150-154) Undesirable Effects Insulin The main undesirable effect of insulin is hypoglycemia. This is common, and can cause brain damage. Intensive insulin therapy results in a threefold increase in severe hypoglycemia. The treatment of hypoglycemic is to take a sweet drink or snack, or, if the patient is unconscious, to give intravenous glucose (50% w/v solution) or intramuscular glucagon.Rebound hypergly (Somogyi effect) can follow excessive insulin administration. This results from the release of the insulin-opposing or counter-regulatory hormones in response to insulin-induced hypoglycemia. This can cause hypercemia before breakfast following an unrecognized hypoglycemic attack during sleep in the early hours of the morning. It is essential to recognize this possibility to avoid the mistake of increasing (rather than r educing) the dose of insulin in this situation. Allergy to insulin is unusual but may take the form of local or systemic reactions.Severe insulin resistance as a consequence of antibody formation is rare. A high tire of circulating anti-insulin antibodies is more likely to occur with bovine than with porcine insulin. Note, however, that virtually all patients treated with animal insulin have antibodies against the hormone, albeit usually flow. Human insulin is less immunogenic than animal insulin but may still evoke an antibody response, since the source of the hormone is not the only determinant of immunogenicity insulin undergo physical changes before and after injection which can increase their potential for provoking an immune response.(HP Rang et al, 200-270) References 1. Patlak M. 2002. New weapons to combat an ancient disease treating diabetes. Available on http//www. fasebj. org/cgi/content/full/16/14/1853e 2. Perspective Press. 2003. The chemists Technician 1st edition Mor ton Publishers. P 240- 243. 3. Jahangir Moini. 2005. Comprehensive Exam Review for the Pharmacy Technician Thomson Delmar. P 150-154 4. H. P. Rang, M. Maureen Dale, James M. Ritter, Philip Moore. 2001. Pharmacology Churchill Livingstone. P 200-270
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