Link to bioRxiv paper:
http://biorxiv.org/cgi/content/short/2023.03.16.532898v1?rss=1
Authors: Watanuki, S., Kobayashi, H., Sugiura, Y., Yamamoto, M., Karigane, D., Shiroshita, K., Sorimachi, Y., Koide, S., Oshima, M., Nishiyama, A., Murakami, K., Miho, H., Tamaki, S., Yamamoto, T., Yabushita, T., Tanaka, Y., Honda, H., Okamoto, S., Goda, N., Tamura, T., Nakamura-Ishizu, A., Suematsu, M., Iwama, A., Suda, T., Takubo, K.
Abstract:
Metabolic pathways are plastic and rapidly change in response to stress or perturbation. Current metabolic profiling techniques require lysis of many cells, complicating the tracking of metabolic changes over time after stress in rare cells such as hematopoietic stem cells (HSCs). Here, we aimed to identify the key metabolic enzymes that define metabolic differences between steady-state and stress conditions in HSCs and elucidate their regulatory mechanisms. Through quantitative 13C metabolic flux analysis of glucose metabolism using high-sensitivity glucose tracing and mathematical modeling, we found that HSCs activate the glycolytic rate-limiting enzyme phosphofructokinase (PFK) during proliferation and oxidative phosphorylation (OXPHOS) inhibition. Real-time measurement of adenosine triphosphate (ATP) levels in single HSCs demonstrated that proliferative stress or OXPHOS inhibition led to accelerated glycolysis via increased activity of PFKFB3, the enzyme regulating an allosteric PFK activator, within seconds to meet ATP requirements. Furthermore, varying stresses differentially activated PFKFB3 via PRMT1-dependent methylation during proliferative stress and via AMPK-dependent phosphorylation during OXPHOS inhibition. Overexpression of Pfkfb3 induced HSC proliferation and promoted differentiated cell production, whereas inhibition or loss of Pfkfb3 suppressed them. This study reveals the flexible and multilayered regulation of HSC metabolism to sustain hematopoiesis under stress and provides techniques to better understand the physiological metabolism of rare hematopoietic cells.
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