Obesity reduced survival with 5-fluorouracil and did not protect against chemotherapy-induced cachexia or immune cell cytotoxicity in mice.
Brandon N VanderVeenThomas D CardaciSierra J McDonaldSarah S MaderoChristian A UngerBrooke M BullardReilly T EnosKandy T VelázquezJason L KubinakDaping FanE Angela MurphyPublished in: Cancer biology & therapy (2022)
Fluorouracil/5-flourouracil (5FU) is a first-line chemotherapy drug for many cancer types; however, its associated toxicities contribute to poor quality of life and reduced dose intensities negatively impacting patient prognosis. While obesity remains a critical risk factor for most cancers, our understanding regarding how obesity may impact chemotherapy's toxicities is extremely limited. C56BL/6 mice were given high fat (Obese) or standard diets (Lean) for 4 months and then subjected to three cycles of 5FU (5d-40 mg/kg Lean Mass, 9d rest) or PBS vehicle control. Shockingly, only 60% of Obese survived 3 cycles compared to 100% of Lean, and Obese lost significantly more body weight. Dihydropyrimidine dehydrogenase (DPD), the enzyme responsible for 5FU catabolism, was reduced in obese livers. Total white blood cells, neutrophils, and lymphocytes were reduced in Obese 5FU compared to Lean 5FU and PBS controls. While adipocyte size was not affected by 5FU in Obese, skeletal muscle mass and myofibrillar cross section area were decreased following 5FU in Lean and Obese. Although adipose tissue inflammatory gene expression was not impacted by 5FU, distinct perturbations to skeletal muscle inflammatory gene expression and immune cell populations (CD45 + Immune cells, CD45 + CD11b + CD68 + macrophages and CD45 + CD11b + Ly6c lo/int macrophage/monocytes) were observed in Obese only. Our evidence suggests that obesity induced liver pathologies and reduced DPD exacerbated 5FU toxicities. While obesity has been suggested to protect against cancer/chemotherapy-induced cachexia and other toxicities, our results demonstrate that obese mice are not protected, but rather show evidence of increased susceptibility to 5FU-induced cytotoxicity even when dosed for relative lean mass.
Keyphrases
- weight loss
- adipose tissue
- insulin resistance
- metabolic syndrome
- high fat diet induced
- type diabetes
- bariatric surgery
- gene expression
- chemotherapy induced
- high fat diet
- skeletal muscle
- bone mineral density
- obese patients
- weight gain
- oxidative stress
- dna methylation
- diabetic rats
- emergency department
- induced apoptosis
- postmenopausal women
- peripheral blood
- radiation therapy
- high glucose
- immune response
- young adults
- endoplasmic reticulum stress
- stress induced
- drug induced
- cell death