Cysteic Acid in Dietary Keratin is Metabolized to Glutathione and Liver Taurine in a Rat Model of Human Digestion

Cysteic Acid in Dietary Keratin is Metabolized to Glutathione and Liver Taurine in a Rat Model of Human Digestion

Poultry feathers, consisting largely of keratin, are a low-value product of the poultry industry. The safety and digestibility of a dietary protein produced from keratin (KER) was compared to a cysteine-supplemented casein-based diet in a growing rat model for four weeks. KER proved to be an effecti...

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Main Authors: Frances M. Wolber, Michelle McGrath, Felicity Jackson, Kim Wylie, Anne Broomfield
Format: Article
Language:English
Published: MDPI AG 2016-02-01
Series:Nutrients
Subjects:
cysteine
keratin
rat model
glutathione
Online Access:http://www.mdpi.com/2072-6643/8/2/104
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spelling doaj-d13603107788431187bf634e4e27a64a2020-11-24T23:22:44ZengMDPI AGNutrients2072-66432016-02-018210410.3390/nu8020104nu8020104Cysteic Acid in Dietary Keratin is Metabolized to Glutathione and Liver Taurine in a Rat Model of Human DigestionFrances M. Wolber0Michelle McGrath1Felicity Jackson2Kim Wylie3Anne Broomfield4School of Food and Nutrition, Massey University, Palmerston North 4442, New ZealandSchool of Food and Nutrition, Massey University, Palmerston North 4442, New ZealandRiddet Innovation, Massey University, Palmerston North 4442, New ZealandSchool of Food and Nutrition, Massey University, Palmerston North 4442, New ZealandSchool of Food and Nutrition, Massey University, Palmerston North 4442, New ZealandPoultry feathers, consisting largely of keratin, are a low-value product of the poultry industry. The safety and digestibility of a dietary protein produced from keratin (KER) was compared to a cysteine-supplemented casein-based diet in a growing rat model for four weeks. KER proved to be an effective substitute for casein at 50% of the total dietary protein, with no changes in the rats’ food intake, weight gain, organ weight, bone mineral density, white blood cell counts, liver glutathione, or blood glutathione. Inclusion of KER in the diet reduced total protein digestibility from 94% to 86% but significantly increased total dietary cysteine uptake and subsequent liver taurine levels. The KER diet also significantly increased caecum weight and significantly decreased fat digestibility, resulting in a lower proportion of body fat, and induced a significant increase in blood haemoglobin. KER is therefore a safe and suitable protein substitute for casein, and the cysteic acid in keratin is metabolised to maintain normal liver and blood glutathione levels.http://www.mdpi.com/2072-6643/8/2/104cysteinekeratinrat modelglutathione
collection DOAJ
language English
format Article
sources DOAJ
author Frances M. Wolber
Michelle McGrath
Felicity Jackson
Kim Wylie
Anne Broomfield
spellingShingle Frances M. Wolber
Michelle McGrath
Felicity Jackson
Kim Wylie
Anne Broomfield
Cysteic Acid in Dietary Keratin is Metabolized to Glutathione and Liver Taurine in a Rat Model of Human Digestion
Nutrients
cysteine
keratin
rat model
glutathione
author_facet Frances M. Wolber
Michelle McGrath
Felicity Jackson
Kim Wylie
Anne Broomfield
author_sort Frances M. Wolber
title Cysteic Acid in Dietary Keratin is Metabolized to Glutathione and Liver Taurine in a Rat Model of Human Digestion
title_short Cysteic Acid in Dietary Keratin is Metabolized to Glutathione and Liver Taurine in a Rat Model of Human Digestion
title_full Cysteic Acid in Dietary Keratin is Metabolized to Glutathione and Liver Taurine in a Rat Model of Human Digestion
title_fullStr Cysteic Acid in Dietary Keratin is Metabolized to Glutathione and Liver Taurine in a Rat Model of Human Digestion
title_full_unstemmed Cysteic Acid in Dietary Keratin is Metabolized to Glutathione and Liver Taurine in a Rat Model of Human Digestion
title_sort cysteic acid in dietary keratin is metabolized to glutathione and liver taurine in a rat model of human digestion
publisher MDPI AG
series Nutrients
issn 2072-6643
publishDate 2016-02-01
description Poultry feathers, consisting largely of keratin, are a low-value product of the poultry industry. The safety and digestibility of a dietary protein produced from keratin (KER) was compared to a cysteine-supplemented casein-based diet in a growing rat model for four weeks. KER proved to be an effective substitute for casein at 50% of the total dietary protein, with no changes in the rats’ food intake, weight gain, organ weight, bone mineral density, white blood cell counts, liver glutathione, or blood glutathione. Inclusion of KER in the diet reduced total protein digestibility from 94% to 86% but significantly increased total dietary cysteine uptake and subsequent liver taurine levels. The KER diet also significantly increased caecum weight and significantly decreased fat digestibility, resulting in a lower proportion of body fat, and induced a significant increase in blood haemoglobin. KER is therefore a safe and suitable protein substitute for casein, and the cysteic acid in keratin is metabolised to maintain normal liver and blood glutathione levels.
topic cysteine
keratin
rat model
glutathione
url http://www.mdpi.com/2072-6643/8/2/104
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