Unlike sulfonylureas, these stimulate first-phase insulin release in a
glucose-sensitive manner
Meglitinides
bind to SUR1= close KATP channel
Directly close KATP= membrane depolarisation= Increase
intercellular Ca= insulin release
target SUR1
Incretin therapies
incretin
Annotations:
Incretins are gastrointestinally secreted insulinotropic
hormones that play an important role in glucose homeostasis - they are involved
in augmentation of b-cell secretion of insulin and in suppression of glucagon
secretion by the alpha cell.
The incretin effect
Annotations:
the altered release of insulin following oral ingestion of glucose when compared with intravenous glucose
challenge, even though the glucose concentration achieved in plasma may be
equivalent.
two gut hormones are mainly responsible for the incretin effect-
glucose-dependent insulinotropic peptide (GIP) and GLP-1.
GLP1
an incretin that is released from intestinal L-cells in response to nutrients
actions
Delays gastric emptying, increase insulin sensitivity and reduce glucose
production
Reduce glucose peak after a meal
Acts on the brain to reduce appetite and increases cardiac output
may reduce b-cell apoptosis and promote b-cell proliferation/neogenesis
Annotations:
increase b cell numbers and hence increase insulin secretion
decreases postprandial glucagon secretion from pancreatic alpha cells, which helps to maintain the counter
regulatory balance between insulin and glucagon
decreases beta cell workload
rapidly degraded by the enzyme DPP4
drugs for diabetes
exenatide and liraglutide are GLP-1 receptor agonists that are
resistant to DPP-4 inhibition.
DPP-4 inhibitors eg vildagliptin and sitagliptin cause increased
endogenous GLP-1
Insulin sensitizers
Thiazolidinediones (TZDs)
pioglitazone and rosiglitazone
Agonists of PPARγ nuclear receptors in adipose tissue
PPARγ
regulates fatty acid storage and glucose metabolism
stimulate lipid uptake and adipogenesis by fat cells
Alter gene regulation of lipid and glucose metabolism
Reduce circulating free fatty acids by
20-40%
Enhance insulin-receptor signalling in muscle and adipose tissue and
therefore reduce insulin resistance
Reduced lipotoxicity and glucotoxicity of β-cells
Inhibit hepatic
gluconeogenesis
Increase HDL cholesterol, reduce
LDL density
10y on the market
may have favourable effects on b-cell function by reducing exposure of the b-cells
to the increased free fatty acid environment, i.e., lipotoxicity, which is postulated to
contribute greatly to b-cell death
Side effects oedema and
weight gain
Biguanides
metformin
Annotations:
only agent in this class
had multiple actions
Well known drug- 20 years on the market
Reduces circulating free fatty acids
Reduces hepatic gluconeogensis and increases insulin
sensitivity in skeletal muscle
Acts via activation of AMP kinase, with further downstream effects on SREBP-1 and acetyl-CoA carboxylase;
precise mechanism not fully elucidated
Sterol Regulatory Element-Binding Proteins (SREBPs) are transcription factors
increase fatty acid uptake
SREBP1 expression was significantly reduced in type 2 diabetic subjects
very robust effect to reduce hyperglycemia
recommended as the first line treatment of diabetes with lifestyle changes
direct effects on hepatic glucose and lipid metabolism
Mechanism not precisely known
Side effects; gastrointestinal intolerance, i.e.,
nausea, abdominal pain and diarrhoea.
Reduce glucose supply
α-Glucosidases (Acarbose)
Annotations:
Acarbose is an alpha glucosidase inhibitor in the intestinal brush border that prevents breakdown of complex carbohydrates to monosaccharides and reduces postprandial (after meal) hyperglycaemia
Inhibits α-glucosidase (enzyme) in brush border of small intestine
Annotations:
These enzymes hydrolyse disaccharides to monosaccharides so
they can be absorbed through the small intestine
slow glucose absorption from the gut
some GI side effects
acarbose is associated with a significant reduction in the risk of CVD and
hypertension
Amylin analogues (Pramlintide)
amylin
Annotations:
Amiylin is co-secreted with insulin but reduced in patients
with type 2 diabetes
Inhibits glucagon secretion
Delays gastric emptying
Increases satiety- promote weight loss
SGLT2 inhibitors
Annotations:
SGLT2 (sodium glucose transporter)
SGLT2
SGLT2 mediates renal tubular glucose reabsorption
exclusivley expressed in Proximal tubule
possibly overexpressed in T2DM
Low affinity, high capacity
SGLT2 inhibition allows more glucose to be excreted in the urine instead of reabsorbed by the kidney
new drug
Selective inhibition of SGLT2 increases urinary glucose excretion by inhibiting
renal glucose reabsorption
Glucokinase activators
Promotes hepatic glucose uptake (liver selective)
Enhances insulin secretion
Glucokinase is a glucose-sensing enzyme found in the liver
and pancreas.
Activation of this enzyme promotes hepatic glucose uptake and
pancreatic insulin secretion
GPR40/FFAR1 agonists
Enhance insulin secretion from β-cells
May enhance GLP-1 secretion from L-cells
fatty acid transporter
Glucagon receptor antagonists
glucagon
Glucagon is produced by alpha cells in the pancreas and increases hepatic glucose production, and thus
increases blood glucose particularly postprandially
Antagonizing the glucagon receptor reduces hepatic glucose
overproduction and in turn leads to improved glycaemic control in diabetic animal models
Bariatric surgery
Laparoscopic Roux-en-Y gastric bypass (LRYGB) and laparoscopic adjustable gastric banding (LAGB) are
the most common bariatric procedures
very low complication rates
Gastric bypass can be complicated by problems with the anastamoses including stricturing, leakage,
bleeding or internal hernia, in addition to long term vitamin and mineral deficiencies
Weight loss following bariatric surgery is maintained even after 10 years with reduction in mortality and
morbidity