Abstract
ABSTRACTSeveral epidemiological studies support the protective role of breastfeeding in reducing the risk for type 1 diabetes. Human breast milk is the perfect nutrition for infants and contains many complex proteins, lipids and carbohydrates. In this study, we examined the physiological effects of human milk-derived opioid peptides, β-casomorphins (BCM), and compared them with bovine-milk-derived opioid peptides on pancreatic hormone regulation and β-cell regeneration. Exposure of wild-type zebrafish embryos to 50 µg/ml of human BCM-5 and -7 from 3 days post fertilisation until 6 days post fertilisation resulted in an increased insulin domain of expression while exposure to bovine BCM-5 and -7 significantly reduced the insulin domain of expression as analysed by whole-mount in situ hybridisation. These changes may be accounted for by reduced insulin expression or β-cell number and were mitigated by the µ-opioid receptor antagonist, naloxone. The effect of BCM on β-cell regeneration was assessed following ablation of β-cells in Tg (ins: CFP-NTR) zebrafish from 3 days post fertilisation to 4 days post fertilisation, followed by exposure of bovine and human BCM-5 and -7 (50 µg/ml) from 4 days post fertilisation until 7 days post fertilisation. The regenerative capacity of β-cells was not impeded following exposure to human BCM-5 and -7, whereas the capacity of β-cells to regenerate following bovine BCM-5 and -7 exposure was reduced. Our data suggest that human BCM-5 and -7 may promote β-cell development and enable the regeneration of β-cells, while the bovine-milk-derived peptides, BCM-5 and -7, play an opposite role. These data may provide some biological explanation for the protective effect of breastfeeding on the development of type 1 diabetes.
Highlights
The incidence and prevalence of type 1 diabetes (T1D) has increased worldwide over the past 2–3 decades (Mathis and Vence, 2001; Katsarou et al, 2017)
Human biologically active substances including the β-casomorphin (BCM) augment the domain of expression of insulin To determine the effect of BCM on β-cell biology, wild-type (WT) embryos were exposed to bovine and human BCM-5 and -7 from 3–6 days post fertilisation and analysed by whole-mount in-situ hybridisation (WISH)
As exclusive breastfeeding is the recommended dietary source for the first 6 months of life, we sought to investigate if the human milk-derived bioactive peptides hBCM-5 and -7 may influence β-cell biology
Summary
The incidence and prevalence of type 1 diabetes (T1D) has increased worldwide over the past 2–3 decades (Mathis and Vence, 2001; Katsarou et al, 2017). Certain genetic traits are associated with T1D (Steck and Rewers, 2011; Pociot and Lernmark), the influence of environment is evidenced by the School of Medicine, Faculty of Health, Deakin University, 75 Pigdons Road, Waurn Ponds, Geelong, VIC 3216, Australia. Viral infections (Filippi and von Herrath, 2008), lifestyle factors, antibiotic use and dietary factors (Katsarou et al, 2017; Oilinki et al, 2012; Butalia et al, 2016; Yeung et al, 2011) have all been implicated in the increasing incidence of T1D. Combined with permissive gut factors such as abnormal mucosal immunity, local inflammation or altered gut permeability (Chia et al, 2017), triggers operational early in life may produce autoantibodies in children with a genetic susceptibility to T1D (Kimpimaki et al, 2001)
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