Insulin secretion+ intermediary metabolism

Question 1

Hormones that increase blood glucose levels

Answer 1

Glucagon
Catecholamines
Somatotrophin
Cortisol

Question 2

Differences between type 1 and type 2 diabetes

Answer 2

1: insulin required to prevent ketoacidosis
2: more common, related to hypertension, dyslipidaemia

Question 3

Other type of diabetes

Answer 3

MODY: Maturity Onset Diabetes of the young

Question 4

When does hypoglycaemia occur?

Answer 4

Imbalance between diet, exercise, insulin

Question 5

CNS relies on what energy source?

Importance?

Answer 5

Glucose
Hypoglycaemia= brain function impaired
Severe= unconsciousness, coma, death

Question 6

Islets of Langerhans
Types of cells
Adaptations of islets?

Answer 6

α cells- glucagon= increase blood glucose
β cells
δ cells- somatostatin= inhibits effect of glucagon+ insulin
Gap junctions- allow small molecules to pass directly from cell to cell
Tight junctions- small intercellular spaces

Question 7

β cells
Stimulated by?
Inhibited by?
Produces? Mechanism?
Effects?

Answer 7

Increased blood glucose, certain amino acids, certain gastrointestinal hormones, glucagon from α cells, β cell receptors (parasympathetic activity),

Somatostatin from δ cells , α cell receptors (sympathetic activity)

Insulin:
Glucose binds to GLUT-2 receptor+ becomes Glucose-6 phosphate through glucokinase enzyme
Metabolic reactions of glucose= produce ATP
ATP sensitive K+ channel is blocked= Ca2+ can enter through voltage dependent Ca2+ channe
Ca2+ causes release of stored insulin+ production of more insulin

Decreased lipolysis
Decreased lipogenesis
Decreased ketogenesis
Increased amino acid transport
Increased protein synthesis
Decreased proteolysis
Increased glycogenesis
Increased glycolysis
Increased glucose transport into cells via GLUT-4
Leads to decreased blood glucose
Increase glucose muscle uptake
Stimulates growth+ development

Question 8

α cells
Stimulated by?
Inhibited by?
Produces?
Effects

Answer 8

Decreased blood glucose, sympathetic activity, parasympathetic activity, certain amino acids, certain GI hormones

Somatostatin from δ cells, insulin from β cells

Glucagon

Increased amino acid transport into liver= increased gluconeogenesis
Increased lipolysis= increased glucogenogensis
Increased hepatic glycogenolysis
Leads to increased blood glucose

Question 9

Glucokinase (hexokinase IV)

Answer 9

Involved in rate limiting step during production of insulin from β cells

Question 10

Insulin precursor

Answer 10

Proinsulin- made of insulin+ C-peptide

Question 11

Oral intake of glucose vs IV infused glucose

e.g?

Answer 11

Oral= increased plasma glucose than in IV
Oral= food in GI tract stimulates incretins= increase insulin secretion more than just IV
E.g. GLP-1= gut hormone, transcribed from pro-glucagon gene, stimulates insulin+ suppresses glucagon, increases satiety, short half-life

Question 12

Insulin receptor

Answer 12

2 extracullar α subunits bind to insulin, cause 2 transmembrane β sub-units to allow phosphorylation of cell protein substrates using tyrosine kinase domains