论文信息 - Orexin A but not orexin B rapidly enters brain from blood by simple diffusion.

Orexin A but not orexin B rapidly enters brain from blood by simple diffusion.

We determined the ability of orexin A and orexin B, recently discovered endogenous appetite enhancers, to cross the blood-brain barrier (BBB) of mice. Multiple time-regression analysis showed that an i.v. bolus of 125I-orexin A rapidly entered the brain from the blood, with an influx rate (Ki = 2.5 +/- 0.3 x 10(-4) ml/g.min) many times faster than that of the 99mTc-albumin control. This relatively rapid rate of entry was not reduced by administration of excess orexin A (or leptin) or by fasting for 22 h, even when penetration into only the hypothalamus was measured. Lack of saturability also was shown by perfusion in blood-free buffer. HPLC revealed that most of the injected 125I-orexin A reached the brain as intact peptide. Capillary depletion studies showed that the administered peptide did not remain bound to the endothelial cells comprising the BBB but reached the brain parenchyma. Efflux of 125I-orexin A from the brain occurred at the same rate as 99mTc-albumin. The octanol/buffer partition coefficient of 0.232 showed that orexin A was highly lipophilic, whereas the value for orexin B was only 0.030. Orexin B, moreover, was rapidly degraded in blood, so no 125I-orexin B could be detected in intact form in brain when injected peripherally. Thus, although orexin B is rapidly metabolized in blood and has low lipophilicity, orexin A rapidly crosses the BBB from blood to reach brain tissue by the process of simple diffusion.

A. Kastin | V. Akerstrom

[1] G. Wolf,et al. Orexins: a newly discovered family of hypothalamic regulators of food intake. , 2009, Nutrition reviews.

[2] S. Carr,et al. Orexins and Orexin Receptors: A Family of Hypothalamic Neuropeptides and G Protein-Coupled Receptors that Regulate Feeding Behavior , 1998, Cell.

[3] M. Barinaga. New Appetite-Boosting Peptides Found , 1998, Science.

[4] W. Banks,et al. Effect of Diabetes Mellitus on the Permeability of the Blood–Brain Barrier to Insulin , 1997, Peptides.

[5] W. Banks,et al. Measurement of efflux rates from brain to blood. , 1997, Methods in molecular biology.

[6] W. Banks,et al. Leptin enters the brain by a saturable system independent of insulin , 1996, Peptides.

[7] W. Banks,et al. Measurement of Transport of Cytokines across the Blood-Brain Barrier , 1993 .

[8] W. Banks,et al. Quantifying carrier-mediated transport of peptides from the brain to the blood. , 1989, Methods in enzymology.

[9] D. Begley,et al. Measurement of Solute Transport Across the Blood–Brain Barrier in the Perfused Guinea Pig Brain: Method and Application to N‐Methyl‐α‐Aminoisobutyric Acid , 1986, Journal of neurochemistry.

[10] W. Banks,et al. Peptides and the blood-brain barrier: Lipophilicity as a predictor of permeability , 1985, Brain Research Bulletin.