# Neuroinflammation Based Neurodegenerative In Vitro Model of SH-SY5Y Cells—Differential Effects on Oxidative Stress and Insulin Resistance Relevant to Alzheimer’s Pathology

**Authors:** Csenge Böröczky, Alexandra Paszternák, Rudolf Laufer, Katinka Tarnóczi, Noémi Sikur, Fruzsina Bagaméry, Éva Szökő, Kamilla Varga, Tamás Tábi

PMC · DOI: 10.3390/ijms26146581 · International Journal of Molecular Sciences · 2025-07-09

## TL;DR

This study creates a lab model using SH-SY5Y cells to explore how neuroinflammation affects neurons, focusing on oxidative stress and insulin resistance linked to Alzheimer's disease.

## Contribution

The study introduces a novel in vitro model combining neurons and immune cells to investigate Alzheimer's-related neuroinflammation effects.

## Key findings

- LPS-activated BV2-derived conditioned media best recapitulates Alzheimer's pathology.
- Immune cell-specific inflammation causes distinct effects on neuronal oxidative stress and insulin resistance.
- Insulin resistance increases significantly under LPS-treated BV2 cell conditions.

## Abstract

Neuroinflammation is a key process in Alzheimer’s disease (AD). We aimed to examine the development and evaluation of a comprehensive in vitro model that captures the complex interplay between neurons and immune cell types. Retinoic acid-differentiated SH-SY5Y neuroblastoma cells exposed to LPS-conditioned media (CM) from RAW264.7 macrophages, BV2 microglia, and HL60 promyelocytic cells differentiated into neutrophil- or monocyte-like phenotypes were analyzed. The effects of CM containing inflammatory factors on neuronal viability and function were systematically evaluated. Neuronal oxidative stress, mitochondrial function, autophagy and protein aggregates were analyzed. The involvement of insulin resistance was studied by assaying glucose uptake and determining its IC50 values for cell viability improvement and GSK3β phosphorylation. After short-term exposure (3 h), most inflammatory CMs induced peroxide production in neurons, with the strongest effect observed in media from DMSO- or RA-differentiated HL60 cells. Mitochondrial membrane potential was markedly reduced by LPS-stimulated BV2 and HL60-derived CMs. Prolonged exposure (72 h) revealed partial normalization of oxidative stress and mitochondrial membrane potential. Glucose uptake was significantly impaired in cells treated with LPS-activated RAW264.7, BV2, and DMSO-differentiated HL60 cell media, while insulin partially rescued this effect, except for the CM of BV2 cells. Notably, insulin IC50 increased dramatically under LPS-treated BV2 cells induced inflammation (35 vs. 198 pM), confirming the development of insulin resistance. Immune cell-specific inflammation causes distinct effects on neuronal oxidative stress, mitochondrial function, protein aggregation, insulin signaling and viability. LPS-activated BV2-derived CM best recapitulates AD-related pathology, offering a relevant in vitro model for further studies.

## Linked entities

- **Proteins:** GSK3B (glycogen synthase kinase 3 beta)
- **Chemicals:** retinoic acid (PubChem CID 444795), DMSO (PubChem CID 679), insulin (PubChem CID 70678557)
- **Diseases:** Alzheimer’s disease (MONDO:0004975)

## Full-text entities

- **Genes:** INS (insulin) [NCBI Gene 3630] {aka IDDM, IDDM1, IDDM2, ILPR, IRDN, MODY10}, GSK3B (glycogen synthase kinase 3 beta) [NCBI Gene 2932]
- **Diseases:** neuroblastoma (MESH:D009447), Neuroinflammation (MESH:D000090862), AD (MESH:D000544), insulin resistance (MESH:D007333), inflammation (MESH:D007249)
- **Chemicals:** Glucose (MESH:D005947), LPS (MESH:D008070), Retinoic acid (MESH:D014212), DMSO (MESH:D004121), RA (MESH:D011883), peroxide (MESH:D010545)
- **Cell lines:** SH-SY5Y — Homo sapiens (Human), Neuroblastoma, Cancer cell line (CVCL_0019), BV2 — Mus musculus (Mouse), Transformed cell line (CVCL_0182), RAW264.7 — Mus musculus (Mouse), Mouse leukemia, Cancer cell line (CVCL_0493), HL60 — Homo sapiens (Human), Adult acute myeloid leukemia with maturation, Cancer cell line (CVCL_0002)

## Full text

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## Figures

18 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12294424/full.md

## References

46 references — full list in the complete paper: https://tomesphere.com/paper/PMC12294424/full.md

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Source: https://tomesphere.com/paper/PMC12294424