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ANTIDIABETIC AGENTS

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Title: ANTIDIABETIC AGENTS


1
ANTIDIABETICAGENTS
  • Jirí Slíva

2
DIABETES MELLITUS
  • Multifactorial disease with genetic component
  • Main symptoms hyperglycemia, metabolic
    disturbances
  • Relative or total absence of insulin ? increase
    of the glucose blood level
  • Borderline DM concentration of glucose plasma
    level 7.0 mmol/L fasting and 11.1 mmol/L 2
    hours after the meal

3
TYPE l diabetes (IDDM, insulin-dependent diabetes
mellitus)
  • Formerly juvenile diabetes
  • LADA (latent autoimmune diabetes in adults)
  • Total absence of insulin
  • Langerhans islets B-cells lesion (usually caused
    by autoimmune disease) ? infiltration of islets
    with T-lymphocytes
  • Antibodies against islets tissue and insulin

4
TYPE ll diabetes (NIDDM, non-insulin dependent
diabetes mellitus)
  • Formerly senile diabetes (onset in adulthood)
  • Relative absence of insulin
  • Levels of insulin could be normal or above or
    below normal
  • Insulin-sensitive tissues show a lack of
    insulin-sensitivity or a reduction of insulin
    receptors is supposed
  • NIDDM patients are often obese

5
ANTIDIABETIC AGENTS
  • DM l. type treatment
  • Insulin
  • DM ll. type treatment (PAD)
  • Sulphonylureas
  • Biguanides
  • a-glucosidase inhibitors
  • Glitazones (thiazolidinediones)
  • Glinides etc.

6
INSULIN
  • Human insulin
  • low molecular protein
  • strong electronegative (binding to positively
    charged proteins in circulation and to membrane
    insulin receptors)
  • two peptide chains A (21 AAs) a B (30 AAs),
    linked by disulphide bridges
  • Structure of human insulin

7
INSULIN
  • Proteohormone
  • - glucose utilization
  • - metabolism of lipids and proteins
  • (storage of these basal sources, anabolic
    hormone)
  • Lack of insulin
  • (either absolute of relative)
  • ?DIABETES MELLITUS

8
INSULIN SECRETION
  • Daily production 20 40 IU
  • Basal secretion (cca 50 )
  • - independent on food intake
  • - blocks glucose production in liver
  • - responsible for fasting euglycaemia
  • Stimulated secretion (cca 50)
  • - stimulated by food intake
  • - regulates postprandial glycaemia

9
INSULIN TREAMENT INDICATIONS
  • DM type 1
  • Some DM type 2 patients or
  • patients with secondary diabetes
  • Insulin treatment in DM type 2 patients
  • PAD treatment failure
  • Allergy to PAD
  • Diabetes in pregnancy
  • Severe renal or liver insufficiency
  • Clinical situations with contemporary
    decompensated diabetes (operation, infection,
    etc.)

10
INSULIN SYNTHESIS
  • preproinsulin ? proinsulin ? insulin a C-peptide
    (shows the endogenous insulin secretion)
  • Insulin release from pancreatic B-cells each 15
    -30 min

11
HEALTHY
12
DIABETIC PATIENT
13
INSULIN RELEASE FROM B-CELLS
  • Controlled by glucose concentration
  • a) influx of glucose to the B-cell by GLUT-2
    transporter
  • b) metabolism of glucose by glukokinase
  • c) increase of ATP concentration in the cell
  • d) closure of ATP-sensitive potassium channels
  • e) depolarization and opening of
    voltage-sensitive Ca2 channels
  • f) degranulation of B-cells and insulin release
    to the extra cellular space

14

15
INSULIN RECEPTORS
  • glycoproteins (muscle, adipose tissue)
  • two heterodimers linked by disulphide bridges,
    each consists of a- and ß- subunit
  • a-subunit extra cellular, binding place for
    insulin
  • ß-subunit transmembrane protein with tyrosine
    kinase activity

16
  • Figure Insulin-receptor complexes on the cell
    surface cause chemical responses to occur within
    the cell. This figure was reproduced pending
    permission from the authors of Life, 6th Ed
    (Purves et al, 2001).

17
INSULIN EFFECTS
  • The main hormone of metabolic processes in
    liver, muscle and adipose tissue
  • stimulates anabolic and inhibits catabolic
    processes
  • Facilitates gathering of glucose, aminoacids and
    lipids from food
  • Acute effect of insulin ?hypoglycemia

18
ACUTE CONSEQUENCES OF INSULIN SHORTAGE
  • Lack of insulin in glucose metabolism ?
    hyperglycemia
  • Osmotic diuresis ? polyuria
  • Renal loss of water, Na and K ? dehydration,
    thirst
  • Dehydration ? hypovolemia
  • Release of fatty acids ?hyperacidlipidemia

19
INSULIN THERAPY
  • The daily dose as low as possible!
  • (up to 40 IU / day)
  • Shorter-acting insulin
  • ? more doses daily
  • ? better compensation of DM
  • ? using lower daily dose

20
INSULIN THERAPY
  • Conventional therapy
  • - insulin in one or two daily doses
  • (good compensation just in type 2 DM patients)
  • Intensified therapy
  • - covers basal and prandial need of insulin
  • (more doses, better compensation, lower daily
    dose)

21
ANIMAL INSULIN SOURCES
  • bovine and porcine pancreas
  • ? complicated purification
  • Bovine insulin is different from human insulin in
    three amino acids, porcine in one amino acid
  • human insulin
  • ADVANTAGE less allergic reactions

22
CLASSIFICATION OFINSULIN PREPARATIONS
  • According to sources and purity
  • According to duration of action

23
CLASSIFICATION OFINSULIN PREPARATIONS
  • Sources and purity
  • Animal
  • Human
  • Insulin analogues
  • Duration of action
  • Short-acting
  • Intermediate-acting
  • Long-acting
  • Combined (mixtures)

24
ANIMAL INSULINS
  • Bovine
  • Porcine
  • Mixtures
  • According to level of purity
  • Chromatography purified (PUR)
  • Highly purified monocomponent (MC)
  • (significantly less contaminated)

25
HUMANE INSULINS (HM)
  • emp insulin enzyme techniques to modify porcine
    insulin
  • crb insulin chain recombinant DNA in bacteria

26
INSULIN ANALOGUES
  • short-acting (glulisine)
  • intermediate-acting (lispro)
  • chain recombinant DNA in bacteria technique
  • the penultimate lysine and proline residues on
    the C-terminal end of the B-chain are reversed
  • long-acting (glargine, detemir)

27
DURATION OF ACTION
  • Short-acting
  • - onset 30 minutes, peak 2-4 hours
  • Soluble simple insulin
  • Lispro
  • Intermediate- and long- acting
  • - duration of action between 16 and 35 hours
  • Semilente (suspension, amorphous insulin zinc)
  • Lente (suspension, mixture,amorphous insulin
    zinc, insulin zinc crystals)
  • Isophan insulin (NPH)(complex of protamine and
    insulin)
  • Ultralente (suspension, poorly soluble insulin
    zinc crystals)
  • Combined
  • - fixed mixtures (biphasic,..)

28
Time profiles
29
Pharmacokinetics of insulin
  • The speed of absorption depends on
    pharmaceutical properties, dosage, and tissue
    perfusion
  • Practically no plasma protein binding
  • Degradation of insulin
  • kidneys (35?40 ), liver (60 ), the opposite in
    exogenous insulin
  • biologic half-life 7?10 minutes
  • hydrolysis of S-S bridges between A and B chains
    by insulinase
  • further degradation by proteolysis

30
Adverse reactions acute
  • hypoglycemic reaction in insulin over dosage,
    inadequate caloric intake (less food), higher
    physical activity
  • ? sympathetic reaction (sweating, tremor,
    tachycardia, weakness) and
  • ? parasympathetic reaction (hunger, nausea,
    clouded vision)
  • Hypoglycemic coma
  • i.v. glucose (20?50 ml 40 Glu) or glucagon
    (i.m., s.c.), than glucose or sweet drinks p.o.

31
Adverse reactions long-term
  • Long term therapy with repeated episodes of
    hypoglycemia (namely in older patients) gt CNS
    disturbances (fuzziness, incoordinated speech,
    bizzare behavior)

32
Insulin application
33
Application forms
  • Insulin syrretes
  • Special plastic syrretes, volume 1 ml with sealed
    needle
  • 1 scale segment 1 IU of insulin
  • Single use
  • Most common application form (adults)
  • Cheap

Note One international unit of insulin (1 IU) is
defined as the "biological equivalent" of 34.7 µg
of pure crystalline insulin. This corresponds to
the old USP insulin unit, where one unit (U) of
insulin was set equal to the amount required to
reduce the concentration of blood glucose in a
fasting rabbit to 45 mg/dl (2.5 mmol/L).
34
Application forms Insulin pens
  • Injectors like pen
  • Extensible needle
  • Perfect for intensified insulin therapy

35
Structure of insulin pen
36
Application forms Insulin pumps
  • subcutaneous continual infusion
  • highly reliable, digital, miniature
  • advantage exchange each 48 hours, comfortable
    for the patient
  • disadvantage expensive, repeated measurement of
    glycemia during the day, higher risk of cutaneous
    infection (permanent needle)

37
Inhalable insulin
  • currently not available
  • previously approved in U.S (Exubera)
  • effective, but no better than injected
    short-acting insulin
  • it is unlikely to be cost-effective
  • in 2011 announced that when applied deep into the
    nostrils may delay the onset of Alzheimer's
    disease

Note under development ? buccal spray, insulin
pills, insulin patch,
38
ORAL ANTIDIABETICDRUGS
39
Oral Antidiabetic Drugs
  • Classification of oral antidiabetics
  • Sulphonylureas
  • Biguanides
  • Intestinal glucosidase inhibitors
  • Glitazones (thiazolidinediones)
  • Glinides
  • Gliptins (syn. dipeptidyl-peptidase 4 (DPP-4)
  • SGLT inhibitors
  • Other antidiabetics
  • Incretinoenhancers

40
Oral Antidiabetic Drugs
  • insulin sensitizers
  • biguanides
  • glitazones (thiazolidinediones)
  • insulin secretagogues
  • sulphonylureas
  • fast (short) insulin secretagogues (Glinides)
  • incretins and DPP-4 Inhibitors
  • Intestinal glucosidase inhibitors
  • SGLT inhibitors

41
Biguanides
  • Mechanism of action
  • peripheral insulin uptake enhancement (skeletal
    muscle,...)
  • Main drugs
  • metformin
  • Adverse effects
  • lactate acidosis

42
Glitazones (Thiazolidinediones)
  • Mechanism of action
  • peripheral insulin receptors sensitization
  • targeting peroxisome proliferator-activated
    receptor (PPAR-gamma)
  • improving insulin resistance
  • Main drugs
  • Pioglitazone (Actos)
  • Rosiglitazone (Avandia) withdrawn in 2010,
    because of problems with cardiovascular safety)
  • Adverse effects
  • hepatotoxicity
  • congestive heart failure

43
Sulphonylureas
  • Mechanism of action insulin secretion
    stimulation
  • Main drugs Tolbutamide, Glibenclamide,
    Glipizide, Gliclazide
  • Adverse effects hypoglycemia

44
Fast (short) insulin secretagogues glinides
  • Mechanism of action
  • insulin secretion stimulation (glycaemia
    dependent)
  • Main drugs
  • repaglinide, nateglinide
  • Adverse effects
  • hypoglycemia, GIT disturbances

45
x
46
Sulphonylureas vs. glinides
Sulphonylureas Glinides
1) moderate to long-lasting eff. 2) 1x or 2x daily 3) decreased FBG 4) low eff. on the early secretion of insulin 5) low influence of postprandial glycaemic oscilation 6) clinically significant risk of hypoglycaemia (mostly at night) 7) weight gain 24 kg 8) average decrease of HbA1c 1.5 9) lower price short action administration with each meal postprandial decrease of glycaemia improved postprandial secretion of insulin signif. influence of PP glycaemic oscilation low risk of hypoglycaemia lower weight gain average decrease of HbA1c is comparable in repaglinide nateglinide 0.8 9) higher price
47
Intestinal (Alpha) Glucosidase Inhibitors
  • Mechanism of action
  • decrease of intestinal carbohydrate absorption
  • Main drugs
  • acarbose
  • miglitol
  • Adverse effects
  • diarrhoe

48
Physiology of incretins
Note GLP-1 Glucagon-like peptide 1 GIP
glucose-dependent insulinotropic polypeptide
Baggio LL, 2007
49
Physiology of GLP-1
Note Glucagon-like peptide 1 (GLP-1)
Drucker D, 2006
50
Physiology of GIP
Note GIP glucose-dependent insulinotropic
polypeptide
Baggio LL, 2007
51
Structure of GLP-1 and incretinomimetics
Drucker D, 2006
52
Gliptins mechanism of action
  • sitagliptin, vildagliptin, saxagliptin

- inhibitors of dipeptidyl peptidase-4 (DPP-4)
incretin enhancers gt increased level of GLP-1
GIP
GIP glucose-dependent insulinotropic polypeptide
Lauster CD, 2007
53
Gliptins metformin
HbA Hemaglobin A ITT Intent to treat LAF
Vildagliptin MET Metformin PBO Placebo
Fonseca V, 2007
54
Characteristics and effects of GLP-1 receptor
agonists and DPP-4 inhibitors
Ahrén B, 2011
55
Glycosuric agents
Marsenic O, 2009
56
Glycosuric agents
  • dapagliflozin
  • SGLT-2 inhibitor

Marsenic O, 2009
57
Petr Potmešil
  • Extension of presentation about antidiabetics

58
Possible risk of pancreatic damage after use of
drugs influencing incretinsIncreased incidence
of pancreatitis (?)actually re-assessment of
safety in course by EMA,no change in
recommendations for therapy available at the
moment (published in Mar-2013, details
www.ema.europa.eu)
  • DPP-4 inhibitors (inhibitors of
    dipeptidylpeptidase IV)
  • Sitagliptin
  • Vildagliptin
  • Saxagliptin
  • Analogues of GLP-1 (glucagone like peptide)
  • Liraglutid
  • Agonists of receptor for GLP-1
  • Exenatid

59
Diabetes comparison of metabolic effects of
insulin and glucagone
  • A/ Insulin
  • B/ Glucagone
  • 1) ? oxidation of glucose and ? gluconeogenesis
  • 2) ? synthesis of glycogen and lipids
  • 3) anabolic effect
  • 1) ? glycogenolysis
  • 2) hyperglycaemia

60
Comparison of pharmacokinetic parameters of
sulphonylureas and biguanides
  • A/ Sulphonylureas
  • B/ Biguanides
  • ? binding to plasm. proteins
  • ? biotransformation,
  • thus contraindicated in patients with severe
    impairment of hepatic/renal function
  • do not bind to plasm. proteins
  • no extensive biotransformation, elimination
    mainly by renal excretion, thus contraindicated
    in patients with severe impairment of renal
    functions

61
Some treatment options fordiabetic neuropathic
pain
  • Tricyclic antidepressants low tolerability
    (antimuscarinic eff.)
  • SSRI - limited efficacy sometimes not
    recommended for pain
  • SNRI antidepressants (AE disturbed sleep at
    start)
  • 1/ venlafaxine (Effectin) ? dose - possible
    hypertension
  • 2/ duloxetine (Cymbalta) also approved for
    urinary stress incontinence and GAD (general.
    anxiety disorder)
  • Antiepileptic drugs (AE sedation, weight gain)
  • 1/ gabapentin (Neurontin)
  • 2/ pregabalin (Lyrica), also for GAD, improves
    sleep
  • 3/ carbamazepin many interactions with other
    drugs
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