TORC2 is thought to control spatial aspects of cell growth, in pa

TORC2 is thought to control spatial aspects of cell growth, in particular CH5424802 cell polarity and responses to chemotactic signals via G-protein-coupled activation of RAS.[16] It has long been known that mTOR inhibition by rapamycin (which is used clinically in organ transplantation under the name Sirolimus) is potently immunosuppressive, partly because it blocks the ability of T cells to respond to interleukin-2 and consequently their ability to proliferate in response to antigen stimulation.[17] It is only more recently that is has become clear that the mTOR pathway also controls

the differentiation of different T helper cell subsets,[18] and in particular, the expression of forkhead box P3 (FOXP3), the ‘master’ transcription factor for regulatory T cells (Fig. 1). Downstream activation by mTOR of the T-cell receptor, CD28 co-stimulation EMD 1214063 concentration and cytokine-mediated PI3K signalling is generally required for the differentiation of effector T cells but is inhibitory for FOXP3 expression.[19, 20] Signalling downstream of the sphingomyelin phosphate receptor (S1PR), which is required for lymphocyte trafficking and exit from the lymph nodes, also acts to activate mTOR.[21] Interestingly, this pathway is also the target of a relatively new immunosuppressive drug known as Fingolimod/FTY720,[22]

which therefore might also have the potential to promote regulatory T (Treg) cell development.[23] Although the exact mechanism of FOXP3 inhibition by mTOR has not been clarified, there is some evidence for the involvement of a number of different pathways. These include poorly defined effects on FOXP3 translation via phosphorylation of ribosomal protein S6, and mTOR acting either indirectly via suppressor of cytokine signalling 3 (SOCS3)[24, 25] or directly on signal transducer and activator of transcription 3 (STAT3) downstream of interleukin-6 and the buy 5-FU satiety hormone leptin,[26] which then competes for the interleukin-2-driven STAT5 enhancement of foxp3 transcription.[27] In addition, two transcription factors promoting FOXP3 expression, FOXO3a[28, 29] and the transforming growth factor-β (TGF-β) signalling

component SMAD3, are negatively regulated by AKT downstream of TORC2.[30] Evidence from raptor (TORC1) deficient and rictor (TORC2) deficient mice has suggested that TORC1 tends to promote T helper type 1 (Th1) differentiation,[18] while TORC2 may bias the response to Th2 via AKT and PKCθ,[31] while inhibition of both complexes is required for optimal FOXP3+ Treg cell induction. Th17 cell development seems to be independent of TORC2, but is inhibited by rapamycin in favour of FOXP3+ Treg cells.[32] Hypoxia-induced factor (HIF) 1α, another downstream target of TORC1, has also been implicated as both a positive[33, 34] and a negative[35, 36] regulator of FOXP3 expression and it is also thought to bind directly to FOXP3 protein to target it for proteosomal degradation.

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