Background: Diabetes-associated neurodegeneration is amplified by methylglyoxal (MGO)-driven dicarbonyl stress linking hyperglycemia to neuronal insulin resistance and maladaptive neuroinflammation. We tested the neuroprotective activity of MNP-021, a non-electrophilic TRPA1 modulator, in neurons and glial cells in vitro. Methods: SH-SY5Y neurons were pretreated with MNP-021 and challenged with MGO, then profiled by high-content imaging, RNA-seq, Seahorse OCR/ECAR, glycolytic stress assays and AKT/ERK/CREB immunoblotting ± insulin. In parallel, HMC3 glial cells were treated with MNP-021, exposed to LPS/TNF-α or Aβ(25–35) and tested for viability and inflammatory markers by ELISA and qRT47 PCR. Results: MGO increased nucleus-to-cytoplasm area ratio by 49% and dysregulated glucose handling, increasing 2-NBDG uptake by ~25%, with GLUT1/GLUT4 membrane redistribution; MNP-021 normalized morphology, uptake, and transporter localization without cytotoxicity up to 10 µM. RNA-seq identified 754 MGO-deregulated genes, including ISR/metabolic nodes (GCK, SESN2, PHGDH/PSAT1, PCK2); MNP-021 buffered stress-induced transcription with limited baseline effects, remodeled mitochondrial redox readouts consistent with controlled ROS signaling, while improving mitochondrial content/architecture and blunting stress-evoked compensatory glycolysis. MNP57 021 restored pro-survival signaling (pAKT/pERK and nuclear pCREB), including insulin responsiveness during MGO exposure. MNP-021 reduced IL-6/TNF-α release while increasing IL-10 and ARG1 (~1.9-fold vs LPS/TNF-α) in HMC3 60 glial cells, shifting them toward a pro-resolving IL-10/ARG1 program with reduced Aβ(25–35)-evoked cytokine release with GLP-1 remaining very low (≤10 62 pg/mL) and not significantly increased in this system. (which was not certified by peer review) is the author/funder. Conclusions: MNP-021 coordinates transcriptomic restraint, transporter-level glucose handling, mitochondrial resilience, and pro-survival/pro-resolving signaling across neuron–microglia compartments, supporting TRPA1-tuned small molecule modulation as a candidate strategy against dicarbonyl-linked neuro metabolic stress.
Unconventional Small Molecule MNP-021 Protects Neuronal and Glial Function from Diabetes-Associated Glucotoxicity and Neuroinflammation
Emy Basso;Francesco Dotta;
2026
Abstract
Background: Diabetes-associated neurodegeneration is amplified by methylglyoxal (MGO)-driven dicarbonyl stress linking hyperglycemia to neuronal insulin resistance and maladaptive neuroinflammation. We tested the neuroprotective activity of MNP-021, a non-electrophilic TRPA1 modulator, in neurons and glial cells in vitro. Methods: SH-SY5Y neurons were pretreated with MNP-021 and challenged with MGO, then profiled by high-content imaging, RNA-seq, Seahorse OCR/ECAR, glycolytic stress assays and AKT/ERK/CREB immunoblotting ± insulin. In parallel, HMC3 glial cells were treated with MNP-021, exposed to LPS/TNF-α or Aβ(25–35) and tested for viability and inflammatory markers by ELISA and qRT47 PCR. Results: MGO increased nucleus-to-cytoplasm area ratio by 49% and dysregulated glucose handling, increasing 2-NBDG uptake by ~25%, with GLUT1/GLUT4 membrane redistribution; MNP-021 normalized morphology, uptake, and transporter localization without cytotoxicity up to 10 µM. RNA-seq identified 754 MGO-deregulated genes, including ISR/metabolic nodes (GCK, SESN2, PHGDH/PSAT1, PCK2); MNP-021 buffered stress-induced transcription with limited baseline effects, remodeled mitochondrial redox readouts consistent with controlled ROS signaling, while improving mitochondrial content/architecture and blunting stress-evoked compensatory glycolysis. MNP57 021 restored pro-survival signaling (pAKT/pERK and nuclear pCREB), including insulin responsiveness during MGO exposure. MNP-021 reduced IL-6/TNF-α release while increasing IL-10 and ARG1 (~1.9-fold vs LPS/TNF-α) in HMC3 60 glial cells, shifting them toward a pro-resolving IL-10/ARG1 program with reduced Aβ(25–35)-evoked cytokine release with GLP-1 remaining very low (≤10 62 pg/mL) and not significantly increased in this system. (which was not certified by peer review) is the author/funder. Conclusions: MNP-021 coordinates transcriptomic restraint, transporter-level glucose handling, mitochondrial resilience, and pro-survival/pro-resolving signaling across neuron–microglia compartments, supporting TRPA1-tuned small molecule modulation as a candidate strategy against dicarbonyl-linked neuro metabolic stress.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
