Distinct conformational changes occur within the intrinsically unstructured pro-domain of pro-Nerve Growth Factor in the presence of ATP and Mg 2 .
Francesca PaolettiSonia CovaceuszachAlberto CassettaAntonio N CalabreseUrban NovakPetr Valeryevich KonarevJože GrdadolnikDoriano LambaSimona Golič GrdadolnikPublished in: Protein science : a publication of the Protein Society (2023)
Nerve growth factor (NGF), the prototypical neurotrophic factor, is involved in the maintenance and growth of specific neuronal populations, whereas its precursor, proNGF, is involved in neuronal apoptosis. Binding of NGF or proNGF to TrkA, p75 NTR , and VP10p receptors triggers complex intracellular signaling pathways that can be modulated by endogenous small-molecule ligands. Here, we show by isothermal titration calorimetry and NMR that ATP binds to the intrinsically disordered pro-peptide of proNGF with a micromolar dissociation constant. We demonstrate that Mg 2+ , known to play a physiological role in neurons, modulates the ATP/proNGF interaction. An integrative structural biophysics analysis by small angle X-ray scattering and hydrogen-deuterium exchange mass spectrometry unveils that ATP binding induces a conformational rearrangement of the flexible pro-peptide domain of proNGF. This suggests that ATP may act as an allosteric modulator of the overall proNGF conformation, whose likely distinct biological activity may ultimately affect its physiological homeostasis.
Keyphrases
- growth factor
- small molecule
- high resolution
- anti inflammatory
- mass spectrometry
- molecular dynamics simulations
- molecular dynamics
- oxidative stress
- signaling pathway
- magnetic resonance
- single molecule
- liquid chromatography
- magnetic resonance imaging
- cell proliferation
- endoplasmic reticulum stress
- spinal cord injury
- binding protein
- reactive oxygen species
- pi k akt
- computed tomography
- gas chromatography
- ms ms
- crystal structure
- electron transfer