Studies from a number of areas of neuroendocrinology indicate that hypothalamic tanycytes play a key role in control of energy metabolism. First, profound annual changes in gene expression have been identified in these unusual glial cells in seasonal mammals, for example in genes relating to the transport and metabolism of thyroid hormone into the hypothalamus. The consequent changes in local thyroid hormone availability in the hypothalamus have been shown experimentally to regulate annual cycles in energy intake, storage and expenditure in seasonal species. This is reflected in overt seasonal changes in appetite, body fat composition and torpor. Second, studies in laboratory rodents demonstrate that hypothalamic tanycytes possess transport mechanisms and receptors that indicate they have a cellular function as nutrient sensors. Ex vivo studies with organotypic tanycyte cultures confirm that acute changes in nutrient availability alter calcium and purinergic signalling within and between tanycytes. Finally, tanycytes are components of a stem cell niche in the hypothalamus whose activity can be regulated by the nutritional environment. Experimental depletion of cell division in the hypothalamus alters the homeostatic response to nutrient excess in mice raised in high fat diets. These convergent lines of evidence suggest that tanycytes are nutrient and metabolite sensors that impact upon plasticity and neuronal function in the surrounding hypothalamus, and consequently have an important role in energy intake and expenditure.
Keywords: appetite; deiodinase; glucose; photoperiod; tanycyte.
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