Spontaneous Murine Model of Anaplastic Thyroid Cancer

Huayun Yan; Yingfang Ma; Xinyue Zhou; Yushuang He; Yang Liu; Carlos Caulin; Leiming Wang; Heng Xu; Han Luo

doi:10.3791/64607

Modèle murin spontané de cancer anaplasique de la thyroïde

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Cancer Research

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JoVE Journal Cancer Research

Spontaneous Murine Model of Anaplastic Thyroid Cancer

Modèle murin spontané de cancer anaplasique de la thyroïde

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05:39 min

February 3, 2023

DOI: 10.3791/64607-v

Huayun Yan¹, Yingfang Ma¹, Xinyue Zhou², Yushuang He³, Yang Liu², Carlos Caulin⁴, Leiming Wang⁵, Heng Xu^1,6, Han Luo^2,6

¹State Key Laboratory of Biotherapy and Cancer Center, West China Hospital,Sichuan University and Collaborative Innovation Center, ²Division of Thyroid Surgery, Laboratory of Thyroid and Parathyroid Disease, Frontiers Science Center for Disease-Related Molecular Network, Department of General Surgery, West China Hospital,Sichuan University, ³Department of Ultrasound, West China Hospital of Sichuan University,Sichuan University, ⁴Department of Otolaryngology-Head & Neck Surgery and University of Arizona Cancer Center,University of Arizona, ⁵Center for Translational Medicine,Shenzhen Bay Laboratory, ⁶Division of Laboratory Medicine/Research Centre of Clinical Laboratory Medicine, West China Hospital,Sichuan University

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Overview

This article presents a standard pipeline for obtaining murine ATC tumors using genetically engineered mouse models. It details tumor dynamics and pathological information, aiding researchers in understanding tumorigenesis and facilitating drug discoveries.

Key Study Components

Area of Science

Oncology
Genetics
Pathology

Background

ATC (Anaplastic Thyroid Carcinoma) is a highly aggressive cancer.
Understanding tumor dynamics is crucial for developing effective treatments.
Genetically engineered mouse models provide insights into tumorigenesis.
The immune microenvironment plays a significant role in tumor progression.

Purpose of Study

To establish a reliable method for generating ATC tumors in mice.
To analyze tumor dynamics and pathology of primary and metastatic lesions.
To facilitate research on drug discovery and therapeutic strategies.

Methods Used

Use of genetically engineered mouse models to induce ATC tumors.
Collection of tumor samples throughout the oncogenesis process.
Analysis of tumor dynamics and immune microenvironment interactions.
Application of tamoxifen for tumor induction in mice.

Main Results

Successful establishment of a murine model for studying ATC.
Detailed characterization of tumor dynamics and pathology.
Insights into the role of specific genes in thyroid tumor progression.
Potential for improving prognosis in ATC patients through research findings.

Conclusions

The developed model is a valuable tool for studying ATC.
Findings contribute to understanding tumorigenesis and treatment strategies.
Future research can leverage this model for drug discovery efforts.

Frequently Asked Questions

What is ATC?

ATC stands for Anaplastic Thyroid Carcinoma, a highly aggressive form of thyroid cancer.

How are murine ATC tumors generated?

Murine ATC tumors are generated using genetically engineered mouse models and tamoxifen treatment.

What is the significance of studying tumor dynamics?

Studying tumor dynamics helps researchers understand the progression of cancer and develop effective treatments.

What role does the immune microenvironment play in ATC?

The immune microenvironment influences tumor progression and response to therapies in ATC.

How can this research facilitate drug discovery?

By providing insights into tumorigenesis and gene functions, this research can guide the development of targeted therapies.

Ici, nous présentons un pipeline standard pour obtenir des tumeurs ATC murines par des modèles murins spontanés génétiquement modifiés. En outre, nous présentons la dynamique tumorale et des informations pathologiques sur les lésions primaires et métastasées. Ce modèle aidera les chercheurs à comprendre la tumorigenèse et facilitera la découverte de médicaments.

Nous présentons un pipeline standard pour obtenir des tumeurs MATC et présenter la dynamique tumorale et les informations pathologiques. Ce module aidera les chercheurs à comprendre l’oncogenèse tumorale et facilitera la découverte de médicaments. Le MATC facilite la collecte d’échantillons MATC dans l’ensemble du cours d’oncogenèse tumorale, et chacun est un modèle miroir spontané, avec le système immunitaire complet et le microenvironnement immunitaire.

MATC peut être utilisé pour étudier les effets de fonctions génétiques spécifiques sur l’ATC, comprendre les mécanismes de la progression des tumeurs thyroïdiennes et, en fin de compte, améliorer le pronostic des patients ATC. Pour commencer, pesez le tamoxifène et dissolvez-le dans 15 millilitres d’huile de maïs par ultrasons à une concentration de 20 milligrammes par millilitre. Ensuite, conservez-le dans un récipient brun à quatre degrés Celsius.

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