One of the issues with the highest

One of the issues with the highest potential impact on the poultry industry is the occurrence of a TSC network out-
side the oral cavity. The function of TR in non-taste tissues has attracted a lot of attention due to its potential impact on nutrient metabolism and, more specifically on the hunger-satiety cycle and long term body weight gain (Ren et al., 2009;Treesukosol et al., 2011). The fact that the taste system is part of the enteroendocrine system in mammals implies that it may play a fundamental role mediating the release of orexigenic and anorexigenic hormones which, in turn, control the short and long term feed intake. There are few but encouraging pieces of evidence that the mechanism might be present in birds.Two papers in chickens provide information on the expression of TR outside the taste buds. The expression of the chicken T1R1 gene has been reported in the hypothalamus, liver and adipose tissue (Byerly et al., 2010). These three organs have profound implications in metabolism and the hunger-satiety cycle. For example, the hypothalamus is the main organ in thecontrol of energy homeostasis and the adipose tissue is the main site of synthesis of leptin, an anorexigenic hormone. The chicken T1R1 gene in these tissues (hypothalamus, Liver and adipose) was differentially expressed when comparing a fat to a lean breed of chickens in absence of differences in food intake, which, according to the authors, defines a unique model for genetic obesity (Byerly et al., 2010). The potential implication of TR in the hunger-satiety cycle has been previously reported in laboratory rodents (Ren et al., 2009). According to these authors the TR would play a fundamental role in monitoring l-AA and glucose levels in the central nervous system. The possibility that the chicken TR plays a similar role deserves investigation. In the second paper, in contrast, the authors were unable to find gustducin expressed outside the taste buds in chickens (Kudo et al., 2010b). Gustducin is a taste-cell-specific protein involved in the intracellular cascade of sweet, umamiand bitter TR signalling, that has been often used as a specific biomarker of TSC. While the finding of chicken gustducin in taste buds indicates that cytosolic taste transduction mechanisms are conserved between birds and mammals, the absence in other tissues may illustrate alternative cytosolic mechanisms rather than absence of a taste sensor network in chickens. However, the low percentages of TSC in non-taste tissues make it harder to measure accurately taste
biomarkers in these tissues (Sutherland et al., 2007; Treesukosol et al., 2011). Further research is required to clarify this difference.