Patients who develop B-cell precursor acute lymphoblastic leukemia (BCP-ALL) in childhood may have dysregulated immune function at birth, according to a study published in Cancer Research.
Investigators evaluated neonatal concentrations of inflammatory markers and found significant differences between children who were later diagnosed with BCP-ALL and leukemia-free control subjects.
“Our findings suggest that children who develop ALL are immunologically disparate already at birth,” said study author Signe Holst Søegaard, PhD, of Statens Serum Institut in Copenhagen. “This may link to other observations suggesting that children who develop ALL respond differently to infections in early childhood, potentially promoting subsequent genetic events required for transformation to ALL, or speculations that they are unable to eliminate preleukemic cells.”
She noted that the study could not determine if the associations shown are causal or consequential so further studies will be needed both to confirm the findings and identify the underlying mechanisms.
For this study, Dr. Søegaard and her colleagues measured concentrations of 10 inflammatory markers on neonatal dried blood spots from 178 patients with BCP-ALL and 178 matched controls. The patients were diagnosed with BCP-ALL at ages 1-9 years.
Compared with controls, children who later developed BCP-ALL had significantly different neonatal concentrations of eight inflammatory markers.
Concentrations of interleukin (IL)–8, soluble receptor sIL-6R alpha, transforming growth factor (TGF)–beta 1, monocyte chemotactic protein (MCP)–1, and C-reactive protein (CRP) were significantly lower among the BCP-ALL patients.
On the other hand, concentrations of IL-6, IL-17, and IL-18 were significantly higher among BCP-ALL patients than controls.
The investigators noted that IL-10 concentrations were too low for accurate measurement in all patients and controls. Additionally, a “large proportion” of patients and controls had IL-6 and IL-17 concentrations that were below the limit of detection.
“We also demonstrated that several previously shown ALL risk factors – namely, birth order, gestational age, and sex – were associated with the neonatal concentrations of inflammatory markers,” Dr. Søegaard said. “These findings raise the interesting possibility that the effects of some known ALL risk factors partly act through prenatal programming of immune function.”
The investigators found that increasing birth order was associated with significantly higher IL-18 and lower CRP concentrations.
Increasing gestational age was associated with significantly lower sIL-6R alpha and TGF-beta 1 concentrations and higher CRP concentrations. And boys had significantly lower sIL-6R alpha and IL-8 concentrations and higher CRP concentrations than girls.
However, none of the following factors were significantly associated with concentrations of inflammatory biomarkers: maternal age at delivery, maternal hospital contact attributable to infection during pregnancy, maternal prescription for antimicrobials during pregnancy, birth weight, and mode of delivery.
“Our findings underline the role the child’s baseline immune characteristics may play in the development of ALL,” Dr. Søegaard said. “However, we cannot yet use our research results to predict who will develop childhood ALL.”
The study was sponsored by the Dagmar Marshall Foundation, the A.P. Møller Foundation, the Danish Childhood Cancer Foundation, the Arvid Nilsson Foundation, and the Danish Cancer Research Foundation. The investigators reported having no conflicts of interest.
SOURCE: Søegaard SH et al. Cancer Res. 2018;78(18);5458-63.