Animal models of breast cancer: Their diversity and role in biomedical research

The gut microbiome (GM), a complex community of bacteria, viruses, protozoa, and fungi located in the gut of humans and animals, plays significant roles in host health and disease. Animal models are widely used to investigate human diseases in biomedical research and the GM within animal models can change due to the impact of many factors, such as the vendor, husbandry, and environment. Notably, variations in GM can contribute to differences in disease model phenotypes, which can result in poor reproducibility in biomedical research. Variation in the gut microbiome can also impact the translatability of animal models. For example, standard lab mice have different pathogen exposure experiences when compared to wild or pet store mice. As humans have antigen experiences that are more similar to the latter, the use of lab mice with more simplified microbiomes may not yield optimally translatable data. Additionally, the literature describes many methods to manipulate the GM and differences between these methods can also result in differing interpretations of outcomes measures. In this review, we focus on the GM as a potential contributor to the poor reproducibility and translatability of mouse models of disease. First, we summarize the important role of GM in host disease and health through different gut–organ axes and the close association between GM and disease susceptibility through colonization resistance, immune response, and metabolic pathways. Then, we focus on the variation in the microbiome in mouse models of disease and address how this variation can potentially impact disease phenotypes and subsequently influence research reproducibility and translatability. We also discuss the variations between genetic substrains as potential factors that cause poor reproducibility via their effects on the microbiome. In addition, we discuss the utility of complex microbiomes in prospective studies and how manipulation of the GM through differing transfer methods can impact model phenotypes. Lastly, we emphasize the need to explore appropriate methods of GM characterization and manipulation.

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Methods Used and Application of the Mouse Grimace Scale in Biomedical Research 10 Years On: A Scoping Review

Animals ◽

10.3390/ani11030673 ◽

2021 ◽

Vol 11 (3) ◽

pp. 673

Author(s):

Alexandra L. Whittaker ◽

Yifan Liu ◽

Timothy H. Barker

Keyword(s):

Animal Models ◽

Mouse Models ◽

Biomedical Research ◽

Scoping Review ◽

Facial Features ◽

Inclusion Criteria ◽

Academic Literature ◽

Research Fields ◽

Neuroscience Research ◽

Wide Range

The Mouse Grimace Scale (MGS) was developed 10 years ago as a method for assessing pain through the characterisation of changes in five facial features or action units. The strength of the technique is that it is proposed to be a measure of spontaneous or non-evoked pain. The time is opportune to map all of the research into the MGS, with a particular focus on the methods used and the technique’s utility across a range of mouse models. A comprehensive scoping review of the academic literature was performed. A total of 48 articles met our inclusion criteria and were included in this review. The MGS has been employed mainly in the evaluation of acute pain, particularly in the pain and neuroscience research fields. There has, however, been use of the technique in a wide range of fields, and based on limited study it does appear to have utility for pain assessment across a spectrum of animal models. Use of the method allows the detection of pain of a longer duration, up to a month post initial insult. There has been less use of the technique using real-time methods and this is an area in need of further research.

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New insights on CRISPR/Cas9-based therapy for breast Cancer

Genes and Environment ◽

10.1186/s41021-021-00188-0 ◽

2021 ◽

Vol 43 (1) ◽

Author(s):

Hussein Sabit ◽

Shaimaa Abdel-Ghany ◽

Huseyin Tombuloglu ◽

Emre Cevik ◽

Amany Alqosaibi ◽

...

Keyword(s):

Breast Cancer ◽

Cancer Research ◽

Animal Models ◽

Human Cancer ◽

Step Process ◽

Cancer Initiation ◽

Malignant State ◽

Treat Breast Cancer

AbstractCRISPR/Cas9 has revolutionized genome-editing techniques in various biological fields including human cancer research. Cancer is a multi-step process that encompasses the accumulation of mutations that result in the hallmark of the malignant state. The goal of cancer research is to identify these mutations and correlate them with the underlying tumorigenic process. Using CRISPR/Cas9 tool, specific mutations responsible for cancer initiation and/or progression could be corrected at least in animal models as a first step towards translational applications. In the present article, we review various novel strategies that employed CRISPR/Cas9 to treat breast cancer in both in vitro and in vivo systems.

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G1T48, an oral selective estrogen receptor degrader, and the CDK4/6 inhibitor lerociclib inhibit tumor growth in animal models of endocrine-resistant breast cancer

Breast Cancer Research and Treatment ◽

10.1007/s10549-020-05575-9 ◽

2020 ◽

Vol 180 (3) ◽

pp. 635-646 ◽

Cited By ~ 2

Author(s):

Kaitlyn J. Andreano ◽

Suzanne E. Wardell ◽

Jennifer G. Baker ◽

Taylor K. Desautels ◽

Robert Baldi ◽

...

Keyword(s):

Breast Cancer ◽

Estrogen Receptor ◽

Animal Models ◽

Tumor Growth ◽

Inhibit Tumor Growth

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Automated computer quantification of breast cancer in small-animal models using PET-guided MR image co-segmentation

EJNMMI Research ◽

10.1186/2191-219x-3-49 ◽

2013 ◽

Vol 3 (1) ◽

pp. 49 ◽

Cited By ~ 8

Author(s):

Ulas Bagci ◽

Gabriela Kramer-Marek ◽

Daniel J Mollura

Keyword(s):

Breast Cancer ◽

Animal Models ◽

Small Animal ◽

Mr Image ◽

Small Animal Models

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Evaluation of an enrichment programme for a colony of long-tailed macaques (Macaca fascicularis) in a rescue centre

Primates ◽

10.1007/s10329-021-00908-8 ◽

2021 ◽

Author(s):

Valeria Albanese ◽

Michela Kuan ◽

Pier Attilio Accorsi ◽

Roberta Berardi ◽

Giovanna Marliani

Keyword(s):

Animal Models ◽

Biomedical Research ◽

Macaca Fascicularis ◽

Activity Budget ◽

Control Session ◽

Abnormal Behaviour ◽

Species Specific ◽

Low Rate

AbstractLong-tailed macaques are highly social primates that are commonly used in biomedical research as animal models. The aim of this study was to evaluate the effects of different kinds of enrichment on the behaviour and faecal cortisol metabolite (FCM) level in a colony of ex-laboratory long-tailed macaques during a programme of rehabilitation. The research was carried out in three periods, divided into two sessions each. Every period was composed of one control session (SC) and one session characterised by one type of enrichment: feeding enrichment (FE), manipulative enrichment (ME), and the last session during which manipulative and feeding enrichment were provided every day but in a mixed way (MIX). The results showed that manipulative and mixed enrichments caused positive changes to the activity budget of the colony, with a decrease in abnormal behaviour rates and an increase in play compared with control sessions. The rate of affiliative behaviours and low rate of aggression were probably because the group was composed mostly of females and it was stable, with a well-defined hierarchy. The research underlines the importance of a well-studied enrichment programme for the welfare of captive animals, which should exploit species-specific motivations.

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