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70S6K levels . Therefore, the effects of prolonged treatment with mTOR inhibitors on Akt phosphorylation are clearly dose dependent in these cell lines. We also noted that both rapamycin and RAD001 at 1–100 nM improved Akt phosphorylation at Thr308 inside a dose dependent manner in Pc 3 cells , suggesting that mTOR inhibitors AZD3514 also activate PDK1 kinase. We noted that our data here on Akt phosphorylation at Thr308 by rapamycin or RAD001 in Pc 3 cells are different from previous report that rapamycin at 100 nM slightly decreased Akt phosphorylation at Thr308 immediately after a 24 h treatment . The cause for this inconsistency is not clear, but might be due to the different ways the cells were AZD3514 treated by us along with other investigators.
Rapamycin Increases Akt Phosphorylation Lactacystin Accompanied with Inhibition in the Assembly of mTORC2 We were interested in the effects of rapamycin on the assembly of mTORC2 under the circumstances that Akt phosphorylation is improved. To this end, we immunoprecipiated mTOR complexes from rapamycin treated cell lysates employing an mTOR specific antibody after which detected raptor and rictor, respectively, in these immunoprecipitates by Western blotting. In the tested cell lines exposed to 10 nM rapamycin for 24 h, the amounts of raptor and especially rictor in mTOR complexes were substantially reduced, indicating that both mTORC1 and mTORC2 were inhibited in cells exposed to rapamycin, even though the levels of p Akt remained elevated in these cell lines . Furthermore, we detected mTORC2 in Pc 3 cells immediately after a prolonged treatment with rapamycin at either 1 nM or 100 nM as we presented in Fig.
1C. Rapamycin at both 1 nM and 100 nM properly decreased the levels of rictor in mTOR complexes precipitated by an mTOR antibody Neuroendocrine_tumor albeit with differential effects on alteration of Akt phosphorylation. These outcomes clearly indicate that rapamycin inhibits mTORC2 assembly no matter its differential effects on regulation of Akt phosphorylation. mTOR Inhibitor induced Akt Activation is Secondary to mTORC1 Inhibition and cannot be Abrogated by Inhibition of mTORC2 To dissect the roles of mTORC1 and mTORC2 in mTOR inhibitor induced Akt phosphorylation, we knocked down raptor and rictor expression, which would result in disruption of mTORC1 and mTORC2, respectively. In both Calu 1 and H157 cells, raptor knockdown alone improved p Akt levels as did rapamycin devoid of altering the levels of pp70S6K , indicating that disruption of mTORC1 activates Akt.
Upon treatment with rapamycin, p Akt levels were even further improved , likely as a result of added Lactacystin inhibition in the activity in the residual mTORC1. Silencing of rictor employing two different siRNAs slightly decreased basal levels of p Akt . However, rapamycin nonetheless improved p Akt levels in these cells . Equivalent outcomes AZD3514 were also generated from H157 cells exposed to rapamycin for 24 h, in which raptor and rictor were stably silenced employing lentiviral raptor and rictor shRNAs, respectively. Under such circumstances, stable silencing of raptor did lessen basal levels of p p70S6K . Collectively, these outcomes indicate that rapamycin mediated boost in Akt phosphorylation is secondary to mTORC1 inhibition independent of mTORC2.
Because transient knockdown of raptor in our method did not apparently decrease p p70S6K but substantially improved p Akt levels, these outcomes also suggest that p Akt is far more susceptible than p p70S6K to modulation by mTOR inhibition, suggesting that mTOR inhibition induced Akt phosphorylation is unlikely a secondary event to p70S6K inhibition. Lactacystin The Rapamycin resistant Cell Line Exhibits AZD3514 Increased Levels of p Akt with Disrupted mTORC2 To further demonstrate the impact of long term mTOR inhibitor exposure on Akt activity, we established a rapamycin resistant cell line named A549 RR by exposing rapamycin sensitive A549 cells to gradually improved concentrations of rapamycin from the initial 1 nM to the final 20 uM over a 6 month period.
A549 RR cells were resistant not merely to rapamycin but additionally to RAD001 and were at the least 10,000 fold far more resistant to either rapamycin or RAD001 than A549 P cells by comparing their IC50s. The A549 RR cell line had a comparable growth rate to that of A549 P . To maintain the acquired resistance to rapamycin, we routinely cultured A549 RR cells Lactacystin in full medium containing 1 uM of rapamycin. Twenty four hours just before each and every experiment, rapamycin was withdrawn from the medium. We observed that A549 RR cells had much greater basal levels of p Akt than A549 P cells; these high levels of p Akt were not improved further by either rapamycin or RAD001 . In A549 P cells, rapamycin at either 1 nM or 1 uM improved p Akt levels. The total levels of Akt in both A549 P and A549 RR cell lines were not altered . Both GSK3B and FOXO3a are well known substrates of Akt. The basal levels of p GSK3B but not p FOXO3a were accordingly elevated in A549 RR cells compared with those in A549 P cells . We noted that p p70S6K levels were not decreased by rapamycin or RAD