Human immunomodulatory ligand B7-1 mediates synaptic remodeling via the p75 neurotrophin receptor
Nicholas C. Morano, … , Barbara L. Hempstead, Steven C. Almo
Nicholas C. Morano, … , Barbara L. Hempstead, Steven C. Almo
Published September 15, 2022
Citation Information: J Clin Invest. 2022;132(22):e157002. https://doi.org/10.1172/JCI157002.
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Research Article Neuroscience

Human immunomodulatory ligand B7-1 mediates synaptic remodeling via the p75 neurotrophin receptor

Abstract

Cell surface receptors, ligands, and adhesion molecules underlie development, circuit formation, and synaptic function of the central nervous system and represent important therapeutic targets for many neuropathologies. The functional contributions of interactions between cell surface proteins of neurons and nonneuronal cells have not been fully addressed. Using an unbiased protein-protein interaction screen, we showed that the human immunomodulatory ligand B7-1 (hB7-1) interacts with the p75 neurotrophin receptor (p75NTR) and that the B7-1:p75NTR interaction is a recent evolutionary adaptation present in humans and other primates, but absent in mice, rats, and other lower mammals. The surface of hB7-1 that engages p75NTR overlaps with the hB7-1 surface involved in CTLA-4/CD28 recognition, and these molecules directly compete for binding to p75NTR. Soluble or membrane-bound hB7-1 altered dendritic morphology of cultured hippocampal neurons, with loss of the postsynaptic protein PSD95 in a p75NTR-dependent manner. Abatacept, an FDA-approved therapeutic (CTLA-4–hFc fusion) inhibited these processes. In vivo injection of hB7-1 into the murine subiculum, a hippocampal region affected in Alzheimer’s disease, resulted in p75NTR-dependent pruning of dendritic spines. Here, we report the biochemical interaction between B7-1 and p75NTR, describe biological effects on neuronal morphology, and identify a therapeutic opportunity for treatment of neuroinflammatory diseases.

Authors

Nicholas C. Morano, Roshelle S. Smith, Victor Danelon, Ryan Schreiner, Uttsav Patel, Natalia G. Herrera, Carla Smith, Steven M. Olson, Michelle K. Laerke, Alev Celikgil, Scott J. Garforth, Sarah C. Garrett-Thomson, Francis S. Lee, Barbara L. Hempstead, Steven C. Almo

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Figure 8

hB7-1–Fc injection into adult dSubiculum reduces total spine density.

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hB7-1–Fc injection into adult dSubiculum reduces total spine density. (A...
(A) Golgi-stained WT pyramidal neurons 3 hours after in vivo injection of hB7-1–Fc (100 ng), hB7-2–Fc (100 ng), or saline into the dSubiculum area of the hippocampal formation at P75. (B) There was a significant reduction in total spine density after 3 hours of hB7-1, compared with saline and the hB7-2 group. n = 4 mice/condition. (C) Golgi-stained p75–/– pyramidal neurons 3 hours after in vivo injection of hB7-1–Fc (100 ng), hB7-2–Fc (100 ng), or saline into the dSubiculum area of the hippocampal formation at P75. n = 4 mice/condition (D) There were no significant changes in total spine density after 3 hours for the hB7-1 or hB7-2 group compared with the saline group. n = 4 mice/condition. (E) Golgi-stained WT pyramidal neurons 3 hours after in vivo injection of hB7-1–Fc (200 ng), hB7-2–Fc (200 ng), or saline into the dSubiculum area of the hippocampal formation at P75. (F) There was a significant reduction in total spine density after 3 hours of hB7-1, compared with the saline and hB7-2 groups. n = 4 mice/condition. (G) Golgi-stained WT pyramidal neurons 24 hours after in vivo injection of hB7-1–Fc (200 ng), hB7-2–Fc (200 ng), or saline into the dSubiculum area of the hippocampal formation at P75. (H) There was a significant reduction in total spine density after 24 hours of hB7-1, compared with the saline and hB7-2 groups. n = 4 mice per condition. The apical dendrite segment 50 to 150 μm away from the cell soma was chosen for quantification. *P < 0.05, 1-way ANOVA, post hoc Tukey’s test. Scale bar: 20 μm. 15–20 neurons/brain. Data are represented as mean ± SEM. Error bars represent SEM. See also Supplemental Figure 10.