Chaperone AIP Couples mTORC1 Activation and Catabolic Metabolism During Neonatal Development

  1. Márta Korbonits
  2. Xian Wang
  3. Sayka Barry
  4. Chung Thong Lim
  5. Oniz Suleyman
  6. Stefano De Tito
  7. Nazia Uddin
  8. Maria Lillina Vignola
  9. Charlotte Hall
  10. Laura Perna
  11. J. Paul Chapple
  12. Gabor Czibik
  13. Sian M Henson
  14. Valle Morales
  15. Katiuscia Bianchi
  16. Viðar Örn Eðvarðsson
  17. Kristján Ari Ragnarsson
  18. Viktoría Eir Kristinsdóttir
  19. Anne Debeer
  20. Yoeri Sleyp
  21. Rena Zinchenko
  22. Glenn Anderson
  23. Michael Duchen
  24. Kritarth Singh
  25. Chih Yao Chung
  26. Yu Yuan
  27. Sandip Patel
  28. Artem O. Borovikov
  29. Hans Tómas Björnsson
  30. Hilde Van Esch
  31. Sharon Tooze
  32. Ezra Aksoy
  33. Caroline Brennan
  34. Oliver Haworth
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Abstract

To grow and divide cells must tightly coordinate anabolic programs with the availability of nutrients and growth factors. This balance is especially critical during postnatal development, when biosynthetic and energetic demands are high, and nutrient supply and neonates have to adapt to periods of fasting. These conditions place acute stress on the proteostasis network, making autophagy essential for nutrient recycling. We found that the chaperone aryl hydrocarbon receptor-interacting protein (AIP) supports both arms of this metabolic balance: promoting anabolic PI3K-AKT signaling for mTORC1 activation and enabling catabolic processes such as proteasomal degradation and autophagy. Loss of AIP causes a severe neonatal metabolic disorder, where affected infants fail to thrive postnatally. Our findings establish AIP as a central regulator of neonatal metabolic adaptation and cellular homeostasis.

One Sentence Summary

AIP integrates nutrient sensing and protein recycling to sustain neonatal survival.

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