The role of mouse models in translational cancer research: present and future directions

Porru, Manuela; Leonetti, Carlo

doi:10.4081/tmr.6598

Cited by 3 publications

(2 citation statements)

References 42 publications

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“…Specific mutations in Kras and P53 in lung cancer GEMMs have shed light on the NFκB pathway's role in tumor development, offering potential therapeutic targets. In HCC, GEMMs have highlighted the importance of genetic diversity in understanding tumor subtypes, providing a platform for bench-to-bedside research, especially with systems allowing for the controlled overexpression of genes like MYC, relevant to human carcinomas (69,70).…”

Section: Genetically Engineered Mouse Models (Gemms) For Cancer Researchmentioning

confidence: 99%

Traditional Approaches and Innovative Strategies in Laboratory Animal Models for Cancer Research: A Comprehensive Review

Erdoğan

2024

Düzce Tıp Fakültesi Dergisi

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Cancer remains one of the foremost challenges in medical research, necessitating diverse and sophisticated models to understand its complexity and develop effective treatments. This review explores the evolution and utility of experimental cancer models, highlighting their pivotal role in bridging the gap between basic research and clinical application. From the traditional use of xenografts, which provide a direct avenue for studying tumor growth and drug response in a living organism, to the innovative approaches of genetically engineered mouse models (GEMMs) that replicate human cancer's genetic and phenotypic traits, each model offers unique insights into cancer biology. Recent advances have introduced organoid models, offering a three-dimensional perspective that closely mimics the tumor's microenvironment, and computational models, which leverage patient-specific data to predict disease progression and treatment outcomes. These models enhance our understanding of cancer's molecular drivers, facilitate the development of targeted therapies, and underscore the importance of personalized medicine in oncology. Despite the diversity and potential of these experimental models, challenges remain, including the replication of the tumor's complexity and the integration of immune system interactions. Future research is directed toward refining these models, improving their predictive accuracy, and combining their strengths to offer a holistic view of cancer biology and treatment.

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Section: Genetically Engineered Mouse Models (Gemms) For Cancer Researchmentioning

confidence: 99%

Traditional Approaches and Innovative Strategies in Laboratory Animal Models for Cancer Research: A Comprehensive Review

Erdoğan

2024

Düzce Tıp Fakültesi Dergisi

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“…From translational aspects, the discovery demonstrated that the use of antagonists to this pathway can help destroy cancerous cells. By using GEMMs, effective therapeutic preparations for various subtypes of different cancers and cancers with the same histological features can be developed 52 . Hepatocellular carcinoma (HCC) has three subtypes each of which has almost similar survival but due to heterogeneous tumor properties but genetically engineered mice could be effective in the bench‐to‐beside research applications because of the possible genetic modifications.…”

Section: Genetically Engineered Mouse Modelsmentioning

confidence: 99%

Cancer models in preclinical research: A chronicle review of advancement in effective cancer research

Sajjad

Imtiaz

Nооr

et al. 2021

Anim Models and Exp Med

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Cancer is a major stress for public well‐being and is the most dreadful disease. The models used in the discovery of cancer treatment are continuously changing and extending toward advanced preclinical studies. Cancer models are either naturally existing or artificially prepared experimental systems that show similar features with human tumors though the heterogeneous nature of the tumor is very familiar. The choice of the most fitting model to best reflect the given tumor system is one of the real difficulties for cancer examination. Therefore, vast studies have been conducted on the cancer models for developing a better understanding of cancer invasion, progression, and early detection. These models give an insight into cancer etiology, molecular basis, host tumor interaction, the role of microenvironment, and tumor heterogeneity in tumor metastasis. These models are also used to predict novel cancer markers, targeted therapies, and are extremely helpful in drug development. In this review, the potential of cancer models to be used as a platform for drug screening and therapeutic discoveries are highlighted. Although none of the cancer models is regarded as ideal because each is associated with essential caveats that restraint its application yet by bridging the gap between preliminary cancer research and translational medicine. However, they promise a brighter future for cancer treatment.

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In Vitro and In Vivo Models for Cancer and Infectious Diseases

Peshattiwar

Kaikini

Dandekar

et al. 2019

Targeted Intracellular Drug Delivery by Receptor Mediated Endocytosis

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The role of mouse models in translational cancer research: present and future directions

Cited by 3 publications

References 42 publications

Traditional Approaches and Innovative Strategies in Laboratory Animal Models for Cancer Research: A Comprehensive Review

Traditional Approaches and Innovative Strategies in Laboratory Animal Models for Cancer Research: A Comprehensive Review

Cancer models in preclinical research: A chronicle review of advancement in effective cancer research

In Vitro and In Vivo Models for Cancer and Infectious Diseases

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