Lipids are large molecules that are generally not water-soluble. Since most of the digestive enzymes in the human body are water-based, there are specific steps the body must take to break down lipids and make them available for use.
Lingual lipase is an enzyme secreted by the acinar cells of the sublingual gland that aids lipid digestion. Although found in saliva, it plays only a minimal role in breaking down lipids in the mouth. Interestingly, lingual lipase has a pH optimum of 3.5-6.0 and is not activated until chewed food enters the acidic environment of the stomach. Gastric lipase is an acidic lipase that is secreted by the gastric chief cells in the lining of the stomach.
Lingual lipase and gastric lipase comprise the two acidic lipases found in the human digestive system. These lipases are active in the stomach but rapidly inactivated by bile acids in the duodenum. Together, gastric lipase and lingual lipase account for 10-30% of lipid hydrolysis that occurs in human adults, with gastric lipase contributing the most. Given the low concentrations of pancreatic lipase and bile salts in the neonatal phase, the acidic lipases are critical for lipid digestion and account for 50% of lipid hydrolysis in neonates.
Bile contains bile salts, lecithin, and cholesterol-derived substances, so it acts as an emulsifier in the duodenum of the small intestine. The emulsification of the fat droplets in the duodenum increases their surface area over a thousand-fold, thus making them more accessible to pancreatic lipases.
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