FK506-Binding Protein 2 Participates in Proinsulin Folding.
Carolin HoefnerTenna Holgersen BrydeCelina PihlSylvia Naiga TiedemannSophie Emilie BressonHajira Ahmed HotianaMuhammad Saad KhiljiTheodore Dos SantosMichele PugliaPaola PisanoMariola MajewskaJulia DurzynskaKristian KlindtJustyna KlusekMarcelo J PeroneRobert BuckiPer Mårten HägglundPontus Emanuel GourdonKamil GotfrydEdyta UrbaniakMalgorzata BorowiakMichael WiererPatrick Edward MacDonaldThomas Mandrup-PoulsenMichal Tomasz MarzecPublished in: Biomolecules (2023)
Apart from chaperoning, disulfide bond formation, and downstream processing, the molecular sequence of proinsulin folding is not completely understood. Proinsulin requires proline isomerization for correct folding. Since FK506-binding protein 2 (FKBP2) is an ER-resident proline isomerase, we hypothesized that FKBP2 contributes to proinsulin folding. We found that FKBP2 co-immunoprecipitated with proinsulin and its chaperone GRP94 and that inhibition of FKBP2 expression increased proinsulin turnover with reduced intracellular proinsulin and insulin levels. This phenotype was accompanied by an increased proinsulin secretion and the formation of proinsulin high-molecular-weight complexes, a sign of proinsulin misfolding. FKBP2 knockout in pancreatic β-cells increased apoptosis without detectable up-regulation of ER stress response genes. Interestingly, FKBP2 mRNA was overexpressed in β-cells from pancreatic islets of T2D patients. Based on molecular modeling and an in vitro enzymatic assay, we suggest that proline at position 28 of the proinsulin B-chain (P28) is the substrate of FKBP2's isomerization activity. We propose that this isomerization step catalyzed by FKBP2 is an essential sequence required for correct proinsulin folding.
Keyphrases
- binding protein
- single molecule
- molecular dynamics simulations
- oxidative stress
- cell cycle arrest
- ejection fraction
- nitric oxide
- metabolic syndrome
- endoplasmic reticulum
- induced apoptosis
- chronic kidney disease
- genome wide
- cell proliferation
- hydrogen peroxide
- dna methylation
- long non coding rna
- estrogen receptor
- reactive oxygen species
- quality improvement
- high throughput
- signaling pathway
- breast cancer cells
- postmenopausal women
- bone mineral density
- room temperature
- heat shock protein
- heat stress