Hiring in life sciences? Share your open positions with our professional community. Read more Close

Advertisement

Integrative single-cell and spatial transcriptomic analysis reveals a lactate-driven crosstalk between NFATc4⁺ tumor cells and SPP1⁺ macrophages in glioblastoma.

Created on 12 Jul 2026

Authors

Ruoli Wang, Wantao Wu, Xuan Wu, Ye Yuan, Zhongyi Zhang, Junyi Chen, Yuxin Xie, Linhui Zhang, Xinrui Yu, Hao Zhang, Zongyi Xie

Published in

Journal of translational medicine. Jul 11, 2026. Epub Jul 11, 2026.

Abstract

Glioblastoma (GBM) remains a lethal brain tumor with limited therapeutic options. Metabolic reprogramming, particularly lactate metabolism, plays a critical role in tumor progression and immune evasion.
Here, we integrated single-cell RNA sequencing (scRNA-seq), spatial transcriptomics, and machine learning to investigate the heterogeneity of lactate metabolism in GBM.
Using scRNA-seq data (GSE138794), we classified neoplastic cells into high- and low-lactate subgroups and identified nuclear factor of activated T-cells cytoplasmic 4 (NFATc4) as a key transcription factor associated with elevated lactate metabolism. Pseudotime trajectory analysis revealed dynamic upregulation of NFATc4 during neoplastic cell differentiation, correlating with invasive phenotypes. Spatial transcriptomics (GSE194329) demonstrated colocalization of NFATc4⁺ tumor cells with SPP1⁺ macrophages, suggesting their microenvironmental crosstalk. A prognostic model constructed via 101 machine-learning algorithms (StepCox[forward] + RSF) achieved favorable performance across independent cohorts (TCGA, CGGA, GSE108474, GSE4412, and meta-cohort). Patients with different risk levels showed distinct immune infiltration, copy number alterations, and drug-sensitivity profiles. In vitro functional assays confirmed that NFATc4 knockdown in GBM cells suppressed tumor cell proliferation, migration, and cell cycle while promoting apoptosis. Besides, NFATc4 knockdown in GBM cells reduced SPP1 expression, migration, and M2-like polarization of co-cultured macrophages. Moreover, silencing SPP1 in macrophages attenuated the pro-tumorigenic effects on co-cultured GBM cells, validating the functional relevance of the NFATc4-SPP1 axis.
Our study reveals lactate metabolism-related NFATc4 as a promising therapeutic target in GBM, with implications for prognosis stratification and combination therapy.

PMID:
42436508
Bibliographic data and abstract were imported from PubMed on 12 Jul 2026.

Read full publication at:
Please sign in to see all details.

Advertisement

Stats

  • Community rating n/a 0 votes
  • Reviewers' rating n/a 0 votes
  • Your rating

1-terrible, 9-excellent. How would you rate this publication? Sign in in to submit your rating.

  • Recommendations n/a n/a positive of 0 vote(s)
  • Views 14
  • Comments 0

Recommended by

  • No recommendations yet.

Post a comment

You need to be signed in to post comments. You can sign in here.

Comments

There are no comments yet.

Advertisement