AI Article Synopsis

  • Researchers used a special imaging technique called two-photon optical imaging to study how cervical lymphatic vessels (cLVs) drain cerebrospinal fluid (CSF) in live mice, revealing that contraction of the vessel walls is the main driving force of this flow.* -
  • They found that in older mice, the frequency of these contractions and the speed of fluid flow decreased, linked to lower levels of smooth muscle actin.* -
  • By applying prostaglandin F to aged mice, the researchers were able to enhance muscle contraction and improve CSF drainage, suggesting that boosting cLV function could help clear waste from the brain in aging individuals.*

Article Abstract

Cervical lymphatic vessels (cLVs) have been shown to drain solutes and cerebrospinal fluid (CSF) from the brain. However, their hydrodynamical properties have never been evaluated in vivo. Here, we developed two-photon optical imaging with particle tracking in vivo of CSF tracers (2P-OPTIC) in superficial and deep cLVs of mice, characterizing their flow and showing that the major driver is intrinsic pumping by contraction of the lymphatic vessel wall. Moreover, contraction frequency and flow velocity were reduced in aged mice, which coincided with a reduction in smooth muscle actin expression. Slowed flow in aged mice was rescued using topical application of prostaglandin F, a prostanoid that increases smooth muscle contractility, which restored lymphatic function in aged mice and enhanced central nervous system clearance. We show that cLVs are important regulators of CSF drainage and that restoring their function is an effective therapy for improving clearance in aging.

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Source
http://dx.doi.org/10.1038/s43587-024-00691-3DOI Listing

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