Recovery twice as hard for survivors of childhood acute lymphoblastic leukemia
Nearly 90 per cent of children with acute lymphoblastic leukemia (ALL) survive, yet the same treatments that save their life can adversely affect their quality of life and cardiorespiratory fitness health. In fact, the cardiorespiratory fitness of ALL survivors can be significantly worse than a sample of healthy Canadians, despite similar levels of physical activity.
Maxime Caru, an Université de Montréal doctoral student in kinesiology, demonstrates that a group of genes known as “trainability genes” are linked to cardiorespiratory fitness.
Caru’s study also demonstrates that a group of genes known as “trainability genes” are linked to cardiorespiratory fitness. He will present the findings of this research today at the American College of Sports Medicine’s Annual Meeting in Orlando, Florida.
“Previous work by UdeM’s Laboratory of physiopathology of the exercise, where I carried out my research, had suggested that ALL survivors weren’t following recommendations for physical activity,” said Caru, who is also a researcher at the CHU Sainte-Justine Research Centre.
“But until now no Canadian study had compared the cardiorespiratory fitness of ALL survivors against the healthy population.”
Women affected more than men
In his study, which compares a cohort of 250 survivors of childhood ALL to 825 healthy Canadians, Caru found that the cardiorespiratory fitness of survivors was 22 per cent worse than the healthy population, with a maximum oxygen uptake of nearly 9.2 mL.kg-1.min-1.
He also noted that moderate- to high-intensity physical activity did not improve cardiorespiratory fitness as much among survivors, and that this was particularly true among female survivors.
The reduction in cardiorespiratory fitness can only be partly attributed to ALL treatments and other environmental factors, Caru believes.
Previous studies have found links between trainability genes and changes in cardiorespiratory fitness among healthy people who perform physical activity. To better analyse those links, in the second part of the study, Caru and his colleagues ran genetic association analyses between trainability genes (238 genes, including 134 common variants and 1,225 rare variants) and the cardiorespiratory fitness of ALL survivors.
Genetically linked to ‘trainability’ genes
For the first time, they were able to show that poor cardiorespiratory fitness in survivors is genetically linked to trainability genes, especially the TTN gene. This gene provides cells with instructions for making a protein known as titin that is key to skeletal muscles (those used to move the body) and heart muscles. Furthermore, female survivors with poor cardiorespiratory fitness showed the strongest genetic associations with three other trainability genes: LEPR, IGFBP 1 and ENO3.
While the study’s findings aren’t good news, they do “provide valuable information on genetic associations with poor cardiorespiratory fitness among ALL survivors,” said UdeM kinesiology professor Daniel Curnier, who directed the study.
“Although the study revealed that ALL survivors are doubly burdened by their illness and related treatments, it also provided additional evidence of the benefits of physical activity for childhood cancer treatment. In light of this, ALL survivors need better support to engage in physical activity and ensure they get the most out of it and improve their cardiorespiratory fitness.”
Added Caru: “The study will help kinesiologists develop more personalized plans and effective preventative strategies for ALL survivors to minimize long-term health effects.”
About this study
This study was carried out as part of the CHU Sainte-Justine’s PETALE project, which aims to identify the long-term complications of acute lymphoblastic leukemia treatments on children. This ongoing program is the cornerstone of the research centre’s VIE multidisciplinary project in kinesiology, nutrition and psychology.
Caru and his colleagues published “Identification of genetic association between cardiorespiratory fitness and the trainability genes in Childhood Acute Lymphoblastic Leukemia Survivors” in BMC Cancer on May 14, 2019.
Caru will present his latest findings on May 29, 2019 at the annual meeting of the American College of Sports Medicine in Orlando, Florida. The presentation is based on the yet-to-be-published study “Trainability genes provide answers to the cardiorespiratory fitness deficit in Childhood Acute Lymphoblastic Leukemia Survivors,” written with K. Petrykey, M. Samoilenko, S. Drouin, V. Lemay, L. Kern, L. Romo, P. Beaulieu, P. St-Onge, L. Bertout, G. Lefebvre, C. Laverdiere, G. Andelfinger, M. Krajinovic, D. Sinnett and D. Curnier.
At the same time, Caru will receive the ACSM Cancer SIG-Karen Hornbostel Memorial Award for his work on physical activity and cancer. Some of his work also received the Young Researcher Award of the Quebec Inter-University Center for Social Statistics (QICSS) at the 12th QICSS New Researchers Conference, in January, 2019.
This study was funded by the Institute of Cancer Research (one of the Canadian Institutes of Health Research), in collaboration with the C17 Council, the Canadian Cancer Society, the Cancer Research Society, the Garron Family Cancer Centre (Hospital for Sick Children) the Ontario Institute for Cancer Research, and the Pediatric Oncology Group of Ontario. The study was also partially funded by a grant from the Cole Foundation, the Fonds de recherche du Québec – Santé (FRQS), and the CHU Sainte-Justine Foundation.