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dc.contributor.advisorOlszewski, Pawel K.
dc.contributor.advisorKlockars, Anica
dc.contributor.advisorProsser, Colin G.
dc.contributor.authorWood, Erin Lavinia
dc.date.accessioned2021-09-21T04:10:38Z
dc.date.available2021-09-21T04:10:38Z
dc.date.issued2021
dc.identifier.citationWood, E. L. (2021). Goat’s vs cow’s milk consumption: Analysis of feeding behaviour, brain activation and gene expression in laboratory animals (Thesis, Doctor of Philosophy (PhD)). The University of Waikato, Hamilton, New Zealand. Retrieved from https://hdl.handle.net/10289/14565en
dc.identifier.urihttps://hdl.handle.net/10289/14565
dc.description.abstractMilk is a complex and highly nutritive food. In Western societies, cow’s milk (CM) is most commonly consumed, but recent years have generated interest in milk from other species, especially in goat’s milk (GM). Importantly, select physical and chemical properties of milk are species-dependent and – thus – so are the physiological consequences of consumption of milk sourced from specific species. For example, variation between GM and CM protein impacts digestibility and gastrointestinal processes. Consumption of GM vs CM differentially affects levels of blood hormones regulating energy balance. Furthermore, some conflicting results on acceptability of GM- and CM-based foods have been reported, and it is unclear to what extent habituation to a specific milk type underpins these parameters. To add to the confusion, CM and GM are typically consumed and, therefore, studied as modified milk products, with one of the typical compositional alterations being done to the protein fraction in which the natural 20:80 whey:casein ratio is changed to resemble the 60:40 ratio of human milk. One of the most fundamental gaps in our knowledge regarding CM vs GM relates to the acceptability, palatability and satiating properties of these milks and to appetite-controlling brain processes triggered by CM and GM consumption. Thus, in this doctoral project, I sought to examine whether GM and CM diets elicit unique feeding responses in laboratory rodents and whether the presumed appetite differences are associated with changes in neuronal activation and/or gene expression in key central regions regulating food intake. In Specific Aim 1 of the project, I conducted a comprehensive investigation of short-term intake and palatability profiles of GM- and CM-based liquid and solid diets in mice and rats. Consumption was studied in no-choice and choice scenarios, including meal microstructure. Feeding experiments were followed by qPCR analysis of expression of relevant genes in the energy balance-related hypothalamus and brain stem, and in the nucleus accumbens, which regulates eating for palatability. I found that GM and CM are palatable to juvenile, adult, and aged rodents. Given a choice, animals prefer GM- to CM-based diets. Analysis of meal microstructure using licking patterns points to enhanced palatability of and, possibly, greater motivation toward GM over CM. Most profound changes in gene expression after GM vs. CM were associated with the brain systems driving consumption for reward. The results allow me to conclude that, while both GM and CM are palatable, GM is preferred over CM by animals, and this preference is driven by central mechanisms controlling eating for pleasure. In Specific Aim 2 of the thesis, I investigated the impact of whey enhancement in GM protein fraction on appetite and feeding-related brain processes. The shift from the natural whey:casein ratio of ~20:80 in animal milks is done to match the 60:40 ratio of human milk. Studies show that 20:80 versus 60:40 whey:casein milks differently affect glucose metabolism and hormone release. It is unknown whether the 20:80-to-60:40 ratio adjustment affects appetite and brain processes related to food intake. In this set of studies I focused on the impact of the 20:80 vs 60:40 whey:casein content in GM on food intake and feeding-related brain mechanisms in laboratory mice. I found that the 20:80 whey:casein GM formulation was consumed less avidly and was less preferred than the 60:40 GM in short-term choice and no-choice paradigms. The qPCR analyses in the hypothalamus and brain stem revealed that the 20:80 whey:casein GM intake upregulated genes involved in early termination of feeding and in an interplay between reward and satiety, such as MC3R, OXT, POMC and GLP1R. The 20:80 versus 60:40 whey:casein GM intake differently affected brain neuronal activation (assessed through c-Fos, an immediate-early gene product) in the nucleus of the solitary tract, area postrema, ventromedial hypothalamic nucleus and supraoptic nucleus. Overall, the findings show that whey enhancement in GM promotes overconsumption of GM in no-choice and choice scenarios and that this increased appetite for the 60:40 GM is reflected by changes in neuronal activation and gene expression relevant to feeding regulatory mechanisms. Specific Aim 2 results showing preference for whey-enhanced GM and corresponding changes in c-Fos and gene expression, do not predetermine whether the preference for the 60:40 milk would be retained if - instead of a highly palatable GM - a somewhat less preferred CM was used. Thus, in Specific Aim 3, I replicated the aforementioned feeding, gene expression and c-Fos analyses using CM with the 20:80 vs 60:40 whey:casein. I found that mice exhibited preference for the 60:40 over 20:80 whey:casein CM. This preference for the 60:40 CM was retained even when animals had simultaneous access to the 20:80 GM. Consumption of similar quantities of 20:80 CM vs 60:40 CM differently affected c-Fos in the paraventricular, dorsomedial, arcuate and lateral hypothalamic nuclei and in the nucleus of the solitary tract in the brain stem and relative gene expression (melanocortin and opioid transcripts). It can be concluded that the 60:40 whey:casein milks are more preferred regardless of the species from which the milk was derived, indicating that whey:casein ratio influences preference. Mechanistic commonalities in the whey:casein ratio changes in CM vs GM include the hindbrain neuronal activity changes. Differences in hypothalamic c-Fos and gene expression as well as differences in no-choice feeding paradigms indicate that milk type (GM vs CM) influences some aspects of feeding processes driven by the shift in the whey:casein ratio. Overall, the data presented in this thesis indicate that GM is generally more preferred and it has higher acceptance than CM in laboratory animal models. This phenomenon is reflected by unique changes in feeding-related brain processes induced by GM vs CM. Whey enhancement increases preference toward milk and this effect on consumption is more profound than the effect of the species from which the milk was derived. In a broader context, one has to consider, however, that whey enhancement’s impact on feeding, brain activation and molecular responses might – if sustained over a longer time period - have metabolic consequences.
dc.format.mimetypeapplication/pdf
dc.language.isoen
dc.publisherThe University of Waikato
dc.rightsAll items in Research Commons are provided for private study and research purposes and are protected by copyright with all rights reserved unless otherwise indicated.
dc.subjectMilk
dc.subjectGoat
dc.subjectCow
dc.subjectBrain
dc.subjectGene expression
dc.subjectRodents
dc.subject.lcshMilk consumption -- Physiological aspects
dc.subject.lcshMilk as feed -- Physiological aspects
dc.subject.lcshMilk proteins -- Physiological aspects
dc.subject.lcshGoat milk -- Physiological aspects
dc.subject.lcshDairy products -- Physiological aspects
dc.subject.lcshRodents -- Food -- Physiological aspects
dc.subject.lcshBrain stimulation
dc.subject.lcshStimulus satiation
dc.subject.lcshGene expression
dc.titleGoat’s vs cow’s milk consumption: Analysis of feeding behaviour, brain activation and gene expression in laboratory animals
dc.typeThesis
thesis.degree.grantorThe University of Waikato
thesis.degree.levelDoctoral
thesis.degree.nameDoctor of Philosophy (PhD)
dc.date.updated2021-09-14T08:50:35Z
pubs.place-of-publicationHamilton, New Zealanden_NZ


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