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      Distributions of leptin receptor mRNA isoforms in the rat brain.

      The Journal of Comparative Neurology
      Adipocytes, metabolism, Animals, Brain, cytology, Carrier Proteins, biosynthesis, DNA Primers, Hypothalamus, In Situ Hybridization, Male, Organ Specificity, RNA Probes, RNA, Messenger, analysis, Rats, Rats, Sprague-Dawley, Receptors, Cell Surface, Receptors, Leptin, Transcription, Genetic

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          Leptin, secreted by white adipocytes, has profound feeding, metabolic, and neuroendocrine effects. Leptin acts on the brain, but the specific anatomic sites and pathways responsible for mediating these effects are still unclear. We have systematically examined distributions of mRNA of leptin receptor isoforms in the rat brain by using a probe specific for the long form and a probe recognizing all known forms of the leptin receptor. The mRNA for the long form of the receptor (OB-Rb) localized to selected nuclear groups in the rat brain. Within the hypothalamus, dense hybridization was observed in the arcuate, dorsomedial, ventromedial, and ventral premamillary nuclei. Within the dorsomedial nucleus, particularly intense hybridization was observed in the caudal regions of the nucleus ventral to the compact formation. Receptors were preferentially localized to the dorsomedial division of the ventromedial nucleus. Hybridization accumulated throughout the arcuate nucleus, extending from the retrochiasmatic region to the posterior periventricular region. Moderate hybridization was observed in the periventricular hypothalamic nucleus, lateral hypothalamic area, medial mammillary nucleus, posterior hypothalamic nucleus, nucleus of the lateral olfactory tract, and within substantia nigra pars compacta. Several thalamic nuclei were also found to contain dense hybridization. These groups included the mediodorsal, ventral anterior, ventral medial, submedial, ventral posterior, and lateral dorsal thalamic nuclei. Hybridization was also observed in the medial and lateral geniculate nuclei. Intense hybridization was observed in the Purkinje and granular cell layers of the cerebellum. A probe recognizing all known forms of the leptin receptor hybridized to all of these sites within the brain. In addition, intense hybridization was observed in the choroid plexus, meninges, and also surrounding blood vessels. These findings indicate that circulating leptin may act through hypothalamic nuclear groups involved in regulating feeding, body weight, and neuroendocrine function. The localization of leptin receptor mRNA in extrahypothalamic sites in the thalamus and cerebellum suggests that leptin may act on specific sensory and motor systems. Leptin receptors localized in nonneuronal cells in the meninges, choroid plexus, and blood vessels may be involved in transport of leptin into the brain and in the clearance of leptin from the cerebrospinal fluid.

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