Housing Temperature Impacts the Systemic and Tissue-Specific Molecular Responses to Cancer in Mice

IF 9.4 1区医学 Q1 GERIATRICS & GERONTOLOGY

Journal of Cachexia Sarcopenia and Muscle Pub Date : 2025-04-16 DOI:10.1002/jcsm.13781

Andrea Irazoki, Emma Frank, Tang Cam Phung Pham, Jessica L. Braun, Amy M. Ehrlich, Mark Haid, Fabien Riols, Camilla Hartmann Friis Hansen, Anne-Sofie Rydal Jørgensen, Nicoline Resen Andersen, Laura Hidalgo-Corbacho, Roberto Meneses-Valdes, Mona Sadek Ali, Steffen Henning Raun, Johanne Louise Modvig, Samantha Gallero, Steen Larsen, Zach Gerhart-Hines, Thomas Elbenhardt Jensen, Maria Rohm, Jonas T. Treebak, Val Andrew Fajardo, Lykke Sylow

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Abstract

Background

Cancer cachexia, affecting up to 80% of patients with cancer, is characterized by muscle and fat loss with functional decline. Preclinical research seeks to uncover the molecular mechanisms underlying cachexia to identify potential targets. Housing laboratory mice at ambient temperature induces cold stress, triggering thermogenic activity and metabolic adaptations. Yet, the impact of housing temperature on preclinical cachexia remains unknown.

Methods

Colon 26 carcinoma (C26)-bearing and PBS-inoculated (Ctrl) mice were housed at standard (ST; 20°C–22°C) or thermoneutral temperature (TN; 28°C–32°C). They were monitored for body weight, composition, food intake and systemic factors. Upon necropsy, tissues were weighed and used for evaluation of ex vivo force and respiration, or snap frozen for biochemical assays.

Results

C26 mice lost 7.5% body weight (p = 0.0001 vs. Ctrls), accounted by decreased fat mass (−35%, p < 0.0001 vs. Ctrls), showing mild cachexia irrespective of housing temperature. All C26 mice exhibited reduced force (−40%, p < 0.0001 vs. Ctrls) and increased atrogene expression (3-fold, p < 0.003 vs. Ctrls). Cancer altered white adipose tissue (WAT)'s functional gene signature (49%, p < 0.05 vs. Ctrls), whereas housing temperature reduced brown adipose tissue (BAT)'s (−78%, p < 0.05 vs. ST Ctrl). Thermogenic capacity measured by Ucp1 expression decreased upon cancer in both WAT and BAT (−93% and −63%, p < 0.0044 vs. Ctrls). Cancer-driven glucose intolerance was noted at ST (26%, p = 0.0192 vs. ST Ctrl), but restored at TN (−23%, p = 0.005 vs. ST C26). Circulating FGF21, GDF-15 and IL-6 increased in all C26 mice (4-fold, p < 0.009 vs. Ctrls), with a greater effect on IL-6 at TN (76%, p = 0.0018 vs. ST C26). Tumour and WAT Il6 mRNA levels remained unchanged, while cancer induced skeletal muscle (SkM) Il6 (2-fold, p = 0.0016 vs. Ctrls) at both temperatures. BAT Il6 was only induced in C26 mice at TN (116%, p = 0.0087 vs. ST C26). At the bioenergetics level, cancer increased SkM SERCA ATPase activity at ST (4-fold, p = 0.0108 vs. ST Ctrl) but not at TN. In BAT, O₂ consumption enhanced in C26 mice at ST (119%, p < 0.03 vs. ST Ctrl) but was blunted at TN (−44%, p < 0.0001 vs. ST C26). Cancer increased BAT ATP levels regardless of temperature (2-fold, p = 0.0046 vs. Ctrls), while SERCA ATPase activity remained unchanged at ST and decreased at TN (−59%, p = 0.0213 vs. TN Ctrl).

Conclusions

In mild cachexia, BAT and SkM bioenergetics are susceptible to different housing temperatures, which influences cancer-induced alterations in glucose metabolism and systemic responses.

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环境温度影响小鼠对癌症的全身和组织特异性分子反应

癌症恶病质影响高达80%的癌症患者，其特征是肌肉和脂肪减少并伴有功能下降。临床前研究旨在揭示恶病质的分子机制，以确定潜在的靶点。在环境温度下饲养实验小鼠会引起冷应激，触发产热活动和代谢适应。然而，住房温度对临床前恶病质的影响尚不清楚。方法将结肠癌小鼠（C26）和pbs接种小鼠（Ctrl）置于标准(ST；20℃- 22℃)或热中性温度(TN；28°C - 32°C)。研究人员监测了他们的体重、身体成分、食物摄入量和全身因素。尸检后，称量组织，用于评估离体力和呼吸，或快速冷冻用于生化分析。结果C26小鼠体重减轻7.5% (p = 0.0001)，脂肪量减少（- 35%,p < 0.0001），与饲养温度无关，表现出轻度恶病质。所有C26小鼠均表现出力降低（- 40%,p < 0.0001）和atrogene表达增加（3倍，p < 0.003）。癌症改变了白色脂肪组织（WAT）的功能基因特征（49%,p < 0.05 vs.对照），而住房温度降低了棕色脂肪组织（BAT）的功能基因特征（- 78%,p < 0.05 vs.对照）。在WAT和BAT中，通过Ucp1表达测量的产热能力在癌症发生后均下降（- 93%和- 63%，p < 0.0044 vs. ctrl）。肿瘤驱动的葡萄糖耐受不良在ST组出现（26%,p = 0.0192），但在TN组恢复（- 23%,p = 0.005, p = 0.0026）。所有C26小鼠的循环FGF21、GDF-15和IL-6均升高（4倍，p < 0.009，对照组），TN组对IL-6的影响更大（76%,p = 0.0018，对照组）。在两种温度下，肿瘤和WAT il - 6 mRNA水平保持不变，而癌症诱导的骨骼肌（SkM） il - 6（2倍，p = 0.0016 vs. ctrl）。BAT Il6仅在C26小鼠中被诱导（116%,p = 0.0087, vs. ST C26）。在生物能量学水平上，癌症增加了ST下SkM SERCA atp酶的活性（4倍，p = 0.0108），但在TN下没有。在BAT中，C26小鼠在ST下的氧气消耗增加（119%,p < 0.03），但在TN下则减弱（- 44%,p < 0.0001，与ST C26相比）。癌症升高了BAT ATP水平，与温度无关（2倍，p = 0.0046），而SERCA ATP酶活性在高温下保持不变，在高温下下降（- 59%,p = 0.0213）。结论在轻度恶病质中，BAT和SkM生物能量易受不同环境温度的影响，从而影响肿瘤诱导的糖代谢和全身反应的改变。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Cachexia Sarcopenia and Muscle MEDICINE, GENERAL & INTERNAL-

CiteScore

13.30

自引率

12.40%

发文量

234

审稿时长

16 weeks

期刊介绍： The Journal of Cachexia, Sarcopenia and Muscle is a peer-reviewed international journal dedicated to publishing materials related to cachexia and sarcopenia, as well as body composition and its physiological and pathophysiological changes across the lifespan and in response to various illnesses from all fields of life sciences. The journal aims to provide a reliable resource for professionals interested in related research or involved in the clinical care of affected patients, such as those suffering from AIDS, cancer, chronic heart failure, chronic lung disease, liver cirrhosis, chronic kidney failure, rheumatoid arthritis, or sepsis.