Direct transport of VEGF from the nasal cavity to brain

作者:Yang Ji Ping; Liu Huai Jun; Cheng Song Ming; Wang Zhao Lu; Cheng Xi; Yu Hui Xin; Liu Xin Feng*
来源:Neuroscience Letters, 2009, 449(2): 108-111.
DOI:10.1016/j.neulet.2008.10.090

摘要

The aim of the present study was to assess the potential of delivering VEGF directly into the central nervous system (CNS) following intranasal administration. Adult Sprague-Dawley rats were randomized into two groups, given [(125)I]-VEGF intranasally or intravenously. VEGF was intranasally administered in both nares alternately, the single dose is 10 mu l with time interval of 2 min for about 18.5 min. The intravenous (IV) group was treated with 100 mu l [(125)I]-VEGF intravenously. Thirty minutes after administration, rats were killed following blood sample collections, then the brains were removed, and olfactory bulb, striatum corpora, cortex, thalamus, pons, cerebella, medulla, hippocampus, cervical cord and other tissues were collected, weighted, under auto gamma counting and autoradiography analysis. Cisternal sampling of cerebrospinal fluid (CSF) was performed in an additional group of animals. Both gamma counting and high resolution phosphor imaging of tissue sections showed that intranasal administration of [(125)I]-VEGF resulted in substantial delivery throughout the CNS. The highest CNS tissue concentration following IN delivery was found in the trigeminal nerve, followed by the optic nerve, olfactory bulbs, olfactory tubercle, striatum, medulla, frontal cortex, midbrain, pons, appendix cerebri, thalamus, hippocampus, cerebellum. Intranasal administration of [(125)I]-VEGF also targeted the deep cervical lymph nodes. CSF did not contain [(125)I]-VEGF following intranasal administration. Intravenous [(125)I]-VEGF resulted in blood and peripheral tissue exposure higher concentrations than that intranasal administration, but CNS concentrations were significantly lower. The results suggest intranasally delivered VEGF can bypass the blood-brain barrier via olfactory- and trigeminal-associated extracellular pathways to directly entry into the CNS. Intranasal administration of VEGF may provide an effective way for the treatments of CNS diseases.