Insulin supplementation attenuates cancer-induced cardiomyopathy and slows tumor disease progression
James T. Thackeray, Stefan Pietzsch, Britta Stapel, Melanie Ricke-Hoch, Chun-Wei Lee, Jens P. Bankstahl, Michaela Scherr, Jörg Heineke, Gesine Scharf, Arash Haghikia, Frank M. Bengel, Denise Hilfiker-Kleiner
James T. Thackeray, Stefan Pietzsch, Britta Stapel, Melanie Ricke-Hoch, Chun-Wei Lee, Jens P. Bankstahl, Michaela Scherr, Jörg Heineke, Gesine Scharf, Arash Haghikia, Frank M. Bengel, Denise Hilfiker-Kleiner
View: Text | PDF
Research Article Cardiology Oncology

Insulin supplementation attenuates cancer-induced cardiomyopathy and slows tumor disease progression

Abstract

Advanced cancer induces fundamental changes in metabolism and promotes cardiac atrophy and heart failure. We discovered systemic insulin deficiency in cachectic cancer patients. Similarly, mice with advanced B16F10 melanoma (B16F10-TM) or colon 26 carcinoma (C26-TM) displayed decreased systemic insulin associated with marked cardiac atrophy, metabolic impairment, and function. B16F10 and C26 tumors decrease systemic insulin via high glucose consumption, lowering pancreatic insulin production and producing insulin-degrading enzyme. As tumor cells consume glucose in an insulin-independent manner, they shift glucose away from cardiomyocytes. Since cardiomyocytes in both tumor models remained insulin responsive, low-dose insulin supplementation by subcutaneous implantation of insulin-releasing pellets improved cardiac glucose uptake, atrophy, and function, with no adverse side effects. In addition, by redirecting glucose to the heart in addition to other organs, the systemic insulin treatment lowered glucose usage by the tumor and thereby decreased tumor growth and volume. Insulin corrected the cancer-induced reduction in cardiac Akt activation and the subsequent overactivation of the proteasome and autophagy. Thus, cancer-induced systemic insulin depletion contributes to cardiac wasting and failure and may promote tumor growth. Low-dose insulin supplementation attenuates these processes and may be supportive in cardio-oncologic treatment concepts.

Authors

James T. Thackeray, Stefan Pietzsch, Britta Stapel, Melanie Ricke-Hoch, Chun-Wei Lee, Jens P. Bankstahl, Michaela Scherr, Jörg Heineke, Gesine Scharf, Arash Haghikia, Frank M. Bengel, Denise Hilfiker-Kleiner

×

Figure 4

Chronic insulin supplementation attenuates atrophy and autophagy in advanced tumor-bearing mice.

Options: View larger image (or click on image) Download as PowerPoint
Chronic insulin supplementation attenuates atrophy and autophagy in adva...
(A and C) Western blots showing total Akt and phosphorylation at Ser473 (pAkt) and Ponceau S as loading control in LVs of B16F10-TM and C26-TM mice with advanced cancer treated with insulin-releasing pellets (INS, 0.2 U/24 hours) or carrier substance palmitic acid (PA). (B and D) Ratio of pAktS473/Akt in B16F10-TM mice with advanced disease treated with PA or INS (n = 4 each) or C26-TM mice with advanced disease treated with PA (n = 5) or INS (n = 6). (E and G) mRNA of Atrogin1 and (F and H) LC3b in B16F10-TM or C26-TM mice (n = 6–7 per group). (I and K) Western blots depicting protein levels and Ponceau S staining as loading control for LC3bI and LC3bII. (J and L) The LC3bII/LC3bI ratio in LV tissue from B16F10-TM mice treated with PA (n = 7) or INS (n = 6) and C26-TM mice treated with PA or INS (n = 11 each). Data are depicted as mean ± SD; AP < 0.05, BP < 0.01 vs. PA-treated B16F10-TM or C26-TM mice using 2-tailed Student’s unpaired t tests with (L) or without (B, DH, and J) Welch’s correction