Conditional knockout of Tsc1 in RORγt-expressing cells induces brain damage and early death in mice.

BACKGROUND

Tuberous sclerosis complex 1 (Tsc1) is known to regulate the development and function of various cell types, and RORγt is a critical transcription factor in the immune system. However, whether Tsc1 participates in regulating RORγt-expressing cells remains unknown.

METHODS

We generated a mouse model in which Tsc1 was conditionally deleted from RORγt-expressing cells (Tsc1) to study the role of RORγt-expressing cells with Tsc1 deficiency in brain homeostasis.

RESULTS

Type 3 innate lymphoid cells (ILC3s) in Tsc1 mice displayed normal development and function, and the mice showed normal Th17 cell differentiation. However, Tsc1 mice exhibited spontaneous tonic-clonic seizures and died between 4 and 6 weeks after birth. At the age of 4 weeks, mice in which Tsc1 was specifically knocked out in RORγt-expressing cells had cortical neuron defects and hippocampal structural abnormalities. Notably, over-activation of neurons and astrogliosis were observed in the cortex and hippocampus of Tsc1 mice. Moreover, expression of the γ-amino butyric acid (GABA) receptor in the brains of Tsc1 mice was decreased, and GABA supplementation prolonged the lifespan of the mice to some extent. Further experiments revealed the presence of a group of rare RORγt-expressing cells with high metabolic activity in the mouse brain.

CONCLUSIONS

Our study verifies the critical role of previously unnoticed RORγt-expressing cells in the brain and demonstrates that the Tsc1 signaling pathway in RORγt-expressing cells is important for maintaining brain homeostasis.