Piezo1 agonist restores meningeal lymphatic vessels, drainage, and brain-CSF perfusion in craniosynostosis and aged mice
Matt J. Matrongolo, … , Young-Kwon Hong, Max A. Tischfield
Matt J. Matrongolo, … , Young-Kwon Hong, Max A. Tischfield
Published November 2, 2023
Citation Information: J Clin Invest. 2024;134(4):e171468. https://doi.org/10.1172/JCI171468.
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Research Article Neuroscience Vascular biology

Piezo1 agonist restores meningeal lymphatic vessels, drainage, and brain-CSF perfusion in craniosynostosis and aged mice

Abstract

Skull development coincides with the onset of cerebrospinal fluid (CSF) circulation, brain-CSF perfusion, and meningeal lymphangiogenesis, processes essential for brain waste clearance. How these processes are affected by craniofacial disorders such as craniosynostosis are poorly understood. We report that raised intracranial pressure and diminished CSF flow in craniosynostosis mouse models associate with pathological changes to meningeal lymphatic vessels that affect their sprouting, expansion, and long-term maintenance. We also show that craniosynostosis affects CSF circulatory pathways and perfusion into the brain. Further, craniosynostosis exacerbates amyloid pathology and plaque buildup in Twist1+/–:5xFAD transgenic Alzheimer’s disease models. Treating craniosynostosis mice with Yoda1, a small molecule agonist for Piezo1, reduces intracranial pressure and improves CSF flow, in addition to restoring meningeal lymphangiogenesis, drainage to the deep cervical lymph nodes, and brain-CSF perfusion. Leveraging these findings, we show that Yoda1 treatments in aged mice with reduced CSF flow and turnover improve lymphatic networks, drainage, and brain-CSF perfusion. Our results suggest that CSF provides mechanical force to facilitate meningeal lymphatic growth and maintenance. Additionally, applying Yoda1 agonist in conditions with raised intracranial pressure and/or diminished CSF flow, as seen in craniosynostosis or with ageing, is a possible therapeutic option to help restore meningeal lymphatic networks and brain-CSF perfusion.

Authors

Matt J. Matrongolo, Phillip S. Ang, Junbing Wu, Aditya Jain, Joshua K. Thackray, Akash Reddy, Chi Chang Sung, Gaëtan Barbet, Young-Kwon Hong, Max A. Tischfield

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Figure 9

Piezo1 activation helps restore MLV networks and brain-CSF perfusion in aged animals.

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Piezo1 activation helps restore MLV networks and brain-CSF perfusion in ...
(A) Representative images show that perfusion of CSF macromolecules into the brain is reduced in 22–24-month-old mice treated with saline vehicle. Yoda1 treatment improves brain-CSF perfusion as seen by a significant increase in the amount of 3 kDa dextran and 45 kDa ovalbumin tracer in tissue. (B) Quantification of percent area fraction of 3 kDa dextran and 45 kDa ovalbumin in brain slices [WT vehicle and WT Yoda1 (n = 6)]. (C) Representative images show Yoda1 treatment in 22–24-month-old mice increases MLV coverage along the SSS and the numbers of loops and sprouts along the sinus confluence and proximal transverse sinus. (D) Quantification of numbers of sprouts, loops, and percent area fraction of Lyve-1 signal along the SSS [WT vehicle and WT Yoda1 (n = 8)]. (E) Tracer drainage to the dCLNs is significantly improved in 22–24-month-old mice receiving Yoda1 versus saline vehicle. (F) Quantification of percent area fraction of 45 kDa ovalbumin tracer [WT vehicle and WT Yoda1 (n = 7)]. SSS, superior sagittal sinus; CoS, confluence of sinuses. *P ≤ 0.05, **P ≤ 0.01, 2-tailed unpaired t test. Scale bars: 500 μm (A and C); 200 μm (E).