MicroRNA-21 is induced by rapamycin in a model of tuberous sclerosis (TSC) and lymphangioleiomyomatosis (LAM).

[lymphangioleiomyomatosis]

Lymphangioleiomyomatosis (LAM ), a multisystem disease of women , is manifest by the proliferation of smooth muscle -like cells in the lung resulting in cystic lung destruction . Women with LAM can also develop renal angiomyolipomas . LAM is caused by mutations in the tuberous sclerosis complex genes (TSC 1 or TSC 2 ), resulting in hyperactive mammalian Target of Rapamycin (mTOR ) signaling . The mTOR inhibitor , Rapamycin , stabilizes lung function in LAM and decreases the volume of renal angiomyolipomas , but lung function declines and angiomyolipomas regrow when treatment is discontinued , suggesting that factors induced by mTORC 1 inhibition may promote the survival of TSC 2 -deficient cells . Whether microRNA (miRNA , miR ) signaling is involved in the response of LAM to mTORC 1 inhibition is unknown . We identified Rapamycin-dependent miRNA in LAM patient angiomyolipoma -derived cells using two separate screens . First , we assayed 132 miRNA of known significance to tumor biology . Using a cut-off of >1 .5 -fold change , 48 microRNA were Rapamycin-induced , while 4 miRs were downregulated . In a second screen encompassing 946 miRNA , 18 miRs were upregulated by Rapamycin , while eight were downregulated . Dysregulation of miRs 29 b , 21 , 24 , 221 , 106 a and 199 a were common to both platforms and were classified as candidate "RapamiRs ." Validation by qRT-PCR confirmed that these microRNA were increased . miR-21 , a pro-survival miR , was the most significantly increased by mTOR-inhibition (p <0 .01 ). The regulation of miR-21 by Rapamycin is cell type independent . mTOR inhibition promotes the processing of the miR-21 transcript (pri-mi R-21 ) to a premature form (pre-mi R-21 ). In conclusion , our findings demonstrate that Rapamycin upregulates multiple miRs , including pro-survival miRs , in TSC 2 -deficient patient-derived cells . The induction of miRs may contribute to the response of LAM and TSC patients to Rapamycin therapy .