Dietary folate levels alter the kinetics and molecular mechanism of prostate cancer recurrence in the CWR22 model

Dietary folate levels alter the kinetics and molecular mechanism of prostate cancer recurrence in the CWR22 model

Folate impacts the genome and epigenome by feeding into one-carbon metabolism to produce critical metabolites, deoxythymidine monophosphate and s-adenosylmethionine. The impact of folate exposure and intervention timing on cancer progression remains controversial. Due to polyamine metabolism's...

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Veröffentlicht in:Oncotarget 2017-11, Vol.8 (61), p.103758-103774
Hauptverfasser: Affronti, Hayley C, Long, Mark D, Rosario, Spencer R, Gillard, Bryan M, Karasik, Ellen, Boerlin, Christoph S, Pellerite, Anthony J, Foster, Barbara A, Attwood, Kristopher, Pili, Roberto, Wilton, John H, Campbell, Moray J, Smiraglia, Dominic J
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container_end_page 103774
container_issue 61
container_start_page 103758
container_title Oncotarget
container_volume 8
creator Affronti, Hayley C
Long, Mark D
Rosario, Spencer R
Gillard, Bryan M
Karasik, Ellen
Boerlin, Christoph S
Pellerite, Anthony J
Foster, Barbara A
Attwood, Kristopher
Pili, Roberto
Wilton, John H
Campbell, Moray J
Smiraglia, Dominic J
description Folate impacts the genome and epigenome by feeding into one-carbon metabolism to produce critical metabolites, deoxythymidine monophosphate and s-adenosylmethionine. The impact of folate exposure and intervention timing on cancer progression remains controversial. Due to polyamine metabolism's extraordinary biosynthetic flux in prostate cancer (CaP) we demonstrated androgen stimulated CaP is susceptible to dietary folate deficiency. We hypothesized dietary folate levels may also affect castration recurrent CaP. We used the CWR22 human xenograft model which recurs following androgen withdrawal. Engrafted mice were fed a folate depleted or supplemented diet beginning at androgen withdrawal, or prior to xenograft implantation. Both folate depletion and supplementation at the time of withdrawal significantly decreased recurrence incidence. Folate supplementation prior to xenograft implantation increased time to recurrence, suggesting a protective role. By contrast, folate depleted recurrent tumors exhibited transcriptional adaptive responses that maintained high polyamine levels at the expense of increased DNA damage and DNA methylation alterations. Mining of publically available data demonstrated folate related pathways are exceptionally dysregulated in human CaP, which correlated with decreased time to biochemical recurrence. These findings highlight the potential for novel therapeutic interventions that target these metabolic pathways in CaP and provide a rationale to apply such strategies alongside androgen withdrawal.
doi_str_mv 10.18632/oncotarget.21911
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title Dietary folate levels alter the kinetics and molecular mechanism of prostate cancer recurrence in the CWR22 model
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