Defects in mitochondrial energetic function compels Fanconi Anaemia cells to glycolytic metabolism

FA (Fanconi anaemia) is a hereditary disease characterized by congenital malformations, progressive bone marrow failure and an extraordinary elevated predisposition to develop cancer. In the present manuscript we describe an anomalous high level of the proinflammatory cytokine IL-1β (interleukin-1β) present in the serum of FA patients. The elevated levels of IL-1β were completely reverted by transduction of a wild-type copy of the FancA cDNA into FA-A (FA group A) lymphocytes. Although the transcription factor NF-κB (nuclear factor-κB) is a well established regulator of IL-1β expression, our experiments did not show any proof of elevated NF-κB activity in FA-A cells. However, we found that the overexpression of IL-1β in FA-A cells is related to a constitutively activated PI3K (phosphoinositide 3-kinase)-Akt pathway in these cells. We provide evidence that the effect of Akt on IL-1β activation is mediated by the inhibition of GSK3β (glycogen synthase kinase 3β). Finally, our data indicate that the levels of IL-1β produced by FA-A lymphoblasts are enough to promote an activation of the cell cycle in primary glioblastoma progenitor cells. Together, these results demonstrate that the constitutive activation of the PI3K-Akt pathway in FA cells upregulates the expression of IL-1β through an NF-κB-independent mechanism and that this overproduction activates the proliferation of tumour cells.

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Multiple screening approaches reveal HDAC6 as a novel regulator of glycolytic metabolism in triple-negative breast cancer

Science Advances ◽

10.1126/sciadv.abc4897 ◽

2021 ◽

Vol 7 (3) ◽

pp. eabc4897

Author(s):

Catríona M. Dowling ◽

Kate E. R. Hollinshead ◽

Alessandra Di Grande ◽

Justin Pritchard ◽

Hua Zhang ◽

...

Keyword(s):

Breast Cancer ◽

Triple Negative Breast Cancer ◽

Histone Deacetylase Inhibitors ◽

Triple Negative ◽

Mitochondrial Apoptosis ◽

Glycolytic Metabolism ◽

Set Up ◽

Screening Approaches

Triple-negative breast cancer (TNBC) is a subtype of breast cancer without a targeted form of therapy. Unfortunately, up to 70% of patients with TNBC develop resistance to treatment. A known contributor to chemoresistance is dysfunctional mitochondrial apoptosis signaling. We set up a phenotypic small-molecule screen to reveal vulnerabilities in TNBC cells that were independent of mitochondrial apoptosis. Using a functional genetic approach, we identified that a “hit” compound, BAS-2, had a potentially similar mechanism of action to histone deacetylase inhibitors (HDAC). An in vitro HDAC inhibitor assay confirmed that the compound selectively inhibited HDAC6. Using state-of-the-art acetylome mass spectrometry, we identified glycolytic substrates of HDAC6 in TNBC cells. We confirmed that inhibition or knockout of HDAC6 reduced glycolytic metabolism both in vitro and in vivo. Through a series of unbiased screening approaches, we have identified a previously unidentified role for HDAC6 in regulating glycolytic metabolism.

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