Reversible expansion of tissue macrophages in response to macrophage colony-stimulating factor (CSF1) transforms systemic metabolism to fuel liver growth
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Background and Aim
Macrophages regulate metabolic homeostasis in health and disease. Macrophage colony-stimulating factor (CSF1)-dependent macrophages contribute to homeostatic control of the size of the liver. This study aimed to determine the systemic metabolic consequences of elevating circulating CSF1.
Methods and Results
Acute administration of a CSF1-Fc fusion protein led to monocytosis, increased resident tissue macrophages in the liver and all major organs, and liver growth. These effects were associated with increased hepatic glucose uptake and extensive mobilisation of body fat. The impacts of CSF1 on macrophage abundance, liver size and body composition were rapidly reversed to restore homeostasis. CSF1’s effects on metabolism were independent of several known endocrine regulators and did not impact the physiological fasting response. Analysis using implantable telemetry in metabolic cages revealed progressively reduced body temperature and physical activity with no change in diurnal food intake.
Conclusion
These results demonstrate the existence of a dynamic equilibrium between CSF1, the mononuclear phagocyte system, metabolic regulation and homeostatic control of liver:body weight ratio.
