Inzulín - translace

Regulace translace

• In 3-day fasted rats, glucose injection
• Increased relative proinsulin mRNA levels by three- to four-fold within 24 h
• Effect was blocked by pharmacological inhibition of transcription
• With actinomycin D [14]

• Glucose
• Important factor for maintaining insulin mRNA stability [14]
• Elevation of intracellular cAMP levels can prevent this reduction [14]

• Partly controlled by dephosphorylation of eukaryotic initiation factor 2a (eIF2a) via protein phosphatase 1 (PP1)
• Exposure of ß-cells to high glucose for 2 hours
• Significantly decreases the ratio of phosphorylated eIF2a to eIF2a
• The overall protein translation induced by glucose compared to the fasting state in ß-cells
• Only 3-fold compared with an up to 8-fold induction in proinsulin translation [14]

• Pancreatic ER kinase (PERK)
• Phosphorylates eIF2a
• Can be partially compensated for by other kinases
• PERK mutation = Wolcott-Rallison syndrome
• Permanent neonatal diabetes in humans [14]
• PERK-deficient mice
• Severe defects in insulin synthesis
• X ß-cell proliferation and differentiation
• Permanent neonatal diabetes as seen in humans [14]
• Not required in adults for maintaining ß-cell mass [14]

• ß-cells have evolved a mechanism to detect the amount of insulin stored and secreted
• Adjust insulin synthesis accordingly [14]
• Islet cell autoantigen 512 (ICA512)
• A granule transmembrane protein
• Crucial part of this feedback control [14]

• Insulin granules
• Long distance on tubulin tracks
• Peripheral actin network
• Anchored to actin cortex via ICA512 and ß2-synthrophin
• Linked to the cytoskeleton
• Granule membrane fuses transiently to the cell membrane to release insulin
• Ca2+ levels in the meantime activate the protease µ-calpain to cleave away a cytosolic fragment from ICA512
• Free ICA512 cytosolic fragment
• In nucleus binds tr. factor STAT5
• Prevent STAT 5 from dephosphorylation
• Upregulates insulin transcription [14]
• Also bind to sumoylating enzyme PIAS
• Reverses the binding of ICA512 to STAT5 [14]

• Regulating the speed of insulin translation
• Exposure of rat islets to 25 mM glucose for 1 hour
• An induction in intracellular proinsulin levels by up to ten-fold from baseline (2.8 mM glucose)
• Whereas proinsulin mRNA quantities remained the same
• Acute glucose-stimulated insulin synthesis is independent of mRNA synthesis within the first 45 min
• Because blockage of transcription only slowed insulin accumulation after that time frame [14]

• Insulin mRNA stability
• Depends on nutrient status
• Important factor that influences insulin protein synthesis
• Decreases under lower glucose concentrations
• Increases under high glucose conditions
• In the absence of glucose, insulin mRNA levels in ß-cells decrease sharply
• Reversed by elevation of intracellular cAMP levels
• Rats fasted for 3 days have only 15–20% of the levels of pancreatic insulin mRNA [14]

• Post-transcriptional regulation
• Controls the modulation of immediate insulin synthesis [14]
• Transcriptional level
• Modulation of delayed insulin synthesis [14]

• Polypyrimidine tract binding proteins (PTBPs)
• Regulate mRNA translation
• Exon repression while mRNA is undergoing
• Splicing in nuclei
• Stabilization
• Ribosome recruitment in the cytosol [14]
• Upregulate translation
• Extending mRNA viability
• Stimulating the initiation of translation [14]
• Cytosolic PTBP1
• Binds to a CU-rich sequence in the 3' UTR of proinsulin
• Stabilizes proinsulin mRNA [14]
• Upregulates translation of several insulin granule proteins
• Binding to ICA512 mRNA decreases 3' UTR decay
• Deletion of the PTB binding site
• Reduced prohormone convertase 2 (PC2) translation [14]
• Binds Insulin and insulin granule protein mRNA
• Enables their gene-specific activation by glucose [14]