Abstract
Congenital lactase deficiency (CLD) is a severe autosomal recessive genetic disorder that affects the functional capacity of the intestinal protein lactase-phlorizin hydrolase (LPH). This disorder is diagnosed already during the first few days of the newborn’s life due to the inability to digest lactose, the main carbohydrate in mammalian milk. The symptoms are similar to those in other carbohydrate malabsorption disorders, such as congenital sucrase-isomaltase deficiency, and include severe osmotic watery diarrhea. CLD is associated with mutations in the translated region of the LPH gene that elicit loss-of-function of LPH. The mutations occur in a homozygote or compound heterozygote pattern of inheritance and comprise missense mutations as well as mutations that lead to complete or partial truncations of crucial domains in LPH, such as those linked to the folding and transport-competence of LPH and to the catalytic domains. Nevertheless, the identification of the mutations in CLD is not paralleled by detailed genotype/protein phenotype analyses that would help unravel potential pathomechanisms underlying this severe disease. Here, we review the current knowledge of CLD mutations and discuss their potential impact on the structural and biosynthetic features of LPH. We also address the question of whether heterozygote carriers can be symptomatic for CLD and whether genetic testing is needed in view of the severity of the disease.
Highlights
Carbohydrates, sugars and starches, constitute one main source of energy in our daily diet.Depending on their structural complexity, these compounds are categorized under monosaccharide, disaccharide, oligosaccharide or polysaccharide groups [1,2]
These enzymes digest the disaccharides to monosaccharides, such as glucose, fructose, and galactose, which are absorbed and transported into the cell interior via specific transporters, such as the Na(+)-dependent glucose transporter, SGLT1, that is located at the apical membrane of the enterocytes [3]
SI is associated with several malabsorption disorders, such as congenital sucrase-isomaltase deficiency (CSID) [12], irritable bowel syndrome (IBS) [13] or secondary malabsorption in inflammatory bowel diseases (IBD) [14] or intestinal infections [15]
Summary
Carbohydrates, sugars and starches, constitute one main source of energy in our daily diet Depending on their structural complexity, these compounds are categorized under monosaccharide, disaccharide, oligosaccharide or polysaccharide groups [1,2]. Digestion of carbohydrates to disaccharides commences by the action of amylase in the saliva and pancreas and is accomplished in the intestine by a group of enzymes, the disaccharidases, which are located in the intestinal brush border membrane. LPH is the only β-galactosidase of the intestine that hydrolyzes the principle sugar in the mammalian milk, lactose, as well as some natural β-glycosides [6,7] This enzyme has a crucial role during the infant period when milk is the exclusive source of nutrition [8,9]
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