The present disclosure provides a nutritional formula comprising alpha-lactalbumin enriched whey protein concentrate; beta-casein enriched milk protein; mildly hydrolyzed milk protein; osteopontin; lactoferrin; oleic acid-palmitic acid-oleic acid triglyceride, wherein palmitic acid is at the SN-2 position of the glycerol backbone of the triglyceride; lactose, wherein the lactose is reduced lactose; lutein; docosahexanoic acid; arachidonic acid; galactooligosaccharides; and polydextrose. The provided nutritional formulas may be useful in providing nutrition and/or promoting postnatal development of a subject (e.g., promoting postnatal development of an infant's gastrointestinal functions, nutrient absorption, immune system development, etc.). Also provided are powder forms, reconstituted formulas, kits, methods, and uses that include or involve a nutritional formula described herein.

The present disclosure provides a nutritional formula comprising alpha-lactalbumin enriched whey protein concentrate; beta-casein enriched milk protein; mildly hydrolyzed milk protein; osteopontin; lactoferrin; oleic acid-palmitic acid-oleic acid triglyceride, wherein palmitic acid is at the SN-2 position of the glycerol backbone of the triglyceride; lactose, wherein the lactose is reduced lactose; lutein; docosahexanoic acid; arachidonic acid; galactooligosaccharides; and polydextrose. The provided nutritional formulas may be useful in providing nutrition and/or promoting postnatal development of a subject (e.g., promoting postnatal development of an infant's gastrointestinal functions, nutrient absorption, immune system development, etc.). Also provided are powder forms, reconstituted formulas, kits, methods, and uses that include or involve a nutritional formula described herein.

Amino acid formulations useful for treating diarrhea in a subject in need thereof are described herein. Such amino acid formulations and methods comprising administering same to a subject are useful for treating diarrhea, particularly diarrhea caused by or associated with bacterial infections wherein secretagogue-stimulated anion secretion from the intestinal crypt contributes to at least one symptom of diarrhea in the subject. Use of these amino acid formulations for the treatment of diarrhea in general or diarrhea associated with secretagogue-stimulated anion secretion from the intestinal crypt are encompassed herein, as are their use in the preparation of a medicament for the treatment of diarrhea in general or diarrhea associated with secretagogue-stimulated anion secretion from the intestinal crypt.

Amino acid formulations useful for treating diarrhea in a subject in need thereof are described herein. Such amino acid formulations and methods comprising administering same to a subject are useful for treating diarrhea, particularly diarrhea caused by or associated with bacterial infections wherein secretagogue-stimulated anion secretion from the intestinal crypt contributes to at least one symptom of diarrhea in the subject. Use of these amino acid formulations for the treatment of diarrhea in general or diarrhea associated with secretagogue-stimulated anion secretion from the intestinal crypt are encompassed herein, as are their use in the preparation of a medicament for the treatment of diarrhea in general or diarrhea associated with secretagogue-stimulated anion secretion from the intestinal crypt.

The present disclosure is directed to methods of treating a steatosis-associated disorder by administering a therapeutic agent selected from a lysosomal enzyme, an autophagy-inducing agent, or a combination thereof. Steatosis-associated disorders discussed herein include GSD Ia, GSD Ib, GSD Ic, NAFLD, and NASH. Other embodiments are directed to methods of reversing steatosis, modulating autophagy, inducing autophagy, and reversing glycogen storage.

The present disclosure is directed to methods of treating a steatosis-associated disorder by administering a therapeutic agent selected from a lysosomal enzyme, an autophagy-inducing agent, or a combination thereof. Steatosis-associated disorders discussed herein include GSD Ia, GSD Ib, GSD Ic, NAFLD, and NASH. Other embodiments are directed to methods of reversing steatosis, modulating autophagy, inducing autophagy, and reversing glycogen storage.

[Object] To provide a composition having an excellent α-glucosidase inhibitory effect or invertase inhibitory effect.

[Solution] A compound (I) contains a compound represented by a structural formula described below as an active ingredient,

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[Object] To provide a composition having an excellent α-glucosidase inhibitory effect or invertase inhibitory effect.

[Solution] A compound (I) contains a compound represented by a structural formula described below as an active ingredient,

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The present invention relates to the use of glutamine synthetase as a protein therapy (such as enzyme replacement protein therapy) for the treatment of hyperammonemia. In particular the invention relates to the systemic administration of glutamine synthetase. The glutamine synthetase may be provided in conjugated or fusion form, to increase its half-life in the circulation. Also provided is a pharmaceutical composition comprising glutamine synthetase. The invention also relates to the uses, methods, and compositions involving a combination of the glutamine synthetase protein and an ammonia lowering agent, such as a nitrogen scavenger.

The present invention relates to the use of glutamine synthetase as a protein therapy (such as enzyme replacement protein therapy) for the treatment of hyperammonemia. In particular the invention relates to the systemic administration of glutamine synthetase. The glutamine synthetase may be provided in conjugated or fusion form, to increase its half-life in the circulation. Also provided is a pharmaceutical composition comprising glutamine synthetase. The invention also relates to the uses, methods, and compositions involving a combination of the glutamine synthetase protein and an ammonia lowering agent, such as a nitrogen scavenger.