Abstract
Lipid metabolism in avian species places unique demands on the liver in comparison to most mammals. The avian liver synthesizes the vast majority of fatty acids that provide energy and support cell membrane synthesis throughout the bird. Egg production intensifies demands to the liver as hepatic lipids are needed to create the yolk. The enzymatic reactions that underlie de novo lipogenesis are energetically demanding and require a precise balance of vitamins and cofactors to proceed efficiently. External stressors such as overnutrition or nutrient deficiency can disrupt this balance and compromise the liver’s ability to support metabolic needs. Heat stress is an increasingly prevalent environmental factor that impairs lipid metabolism in the avian liver. The effects of heat stress-induced oxidative stress on hepatic lipid metabolism are of particular concern in modern commercial chickens due to the threat to global poultry production. Chickens are highly vulnerable to heat stress because of their limited capacity to dissipate heat, high metabolic activity, high internal body temperature, and narrow zone of thermal tolerance. Modern lines of both broiler (meat-type) and layer (egg-type) chickens are especially sensitive to heat stress because of the high rates of mitochondrial metabolism. While this oxidative metabolism supports growth and egg production, it also yields oxidative stress that can damage mitochondria, cellular membranes and proteins, making the birds more vulnerable to other stressors in the environment. Studies to date indicate that oxidative and heat stress interact to disrupt hepatic lipid metabolism and compromise performance and well-being in both broilers and layers. The purpose of this review is to summarize the impact of heat stress-induced oxidative stress on lipid metabolism in the avian liver. Recent advances that shed light on molecular mechanisms and potential nutritional/managerial strategies to counteract the negative effects of heat stress-induced oxidative stress to the avian liver are also integrated.
Highlights
Lipid metabolism in avian species places unique demands on the liver in comparison to most mammals
The critical role of avian liver in lipid metabolism is highlighted during egg production, which demands a shift of hepatic lipids to the yolk to nourish the embryo
In laying hens, when the production cycle starts, liver size and lipid content increase due to the following: (1) rate of lipoprotein synthesis by the liver is faster compared to their metabolism by hepatocytes; (2) the rate of very lowdensity lipoprotein (VLDL) release into the bloodstream is greater than their absorption rate by the ovaries, which leads to an increase in the concentration of triglycerides in the blood
Summary
The avian liver plays a unique role in lipid metabolism in comparison to most mammalian species. Fatty acids synthesized by the liver are incorporated into triacylglycerol and packaged into very lowdensity lipoprotein (VLDL) molecules, which ferry this key energy source to other tissues for immediate use or storage This role makes the avian liver a key player in the regulation of body fat deposition, as most fat stored in adipose tissue originates from hepatic synthesis. Fat absorbed in the gastrointestinal tract directly enters the hepatic portal system in the form of portomicrons and reaches the liver [7] This unique physiological aspect makes avian species that are wellfed, such as domestic poultry, prone to fat accumulation in the liver. In laying hens, when the production cycle starts, liver size and lipid content increase due to the following: (1) rate of lipoprotein synthesis by the liver is faster compared to their metabolism by hepatocytes; (2) the rate of VLDL release into the bloodstream is greater than their absorption rate by the ovaries, which leads to an increase in the concentration of triglycerides in the blood
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