Description
The
Caenorhabditis
Intervention Testing Program (CITP) is a multi-institutional, National Institute on Aging (NIA)-funded consortium with the goal of identifying compounds that will robustly extend lifespan with reproducible effects across genetically diverse
Caenorhabditis
species and strains (Lucanic
et al.,
2017). Compounds are prioritized for testing based on computational prediction for lifespan or healthspan effects (Coleman-Hulbert
et al.,
2019), predicted or known interactions with documented lifespan-regulating pathways, or previous reports for lifespan or healthspan extension in laboratory animals. In this case, diuron was of interest to CITP based on the report of a positive effect on the lifespan of C. elegans strain TJ1060 (
spe-9;fer-15
) (Lucanic
et al.
, 2018; personal communication). Diuron (1-(3,4-dichlorophenyl)-3,3-dimethylurea) is an herbicide that inhibits photosynthesis by binding photosystem II (Haynes
et al.,
2000). Diuron has been previously tested in nematode species for toxicity (Neury-Ormanni
et al.,
2019) and reproductive effects (Mugova
et al.,
2018), and in both cases showed detrimental effects at high doses only.
We assayed lifespan in response to diuron exposure at five different concentrations across three species of
Caenorhabditis
nematodes following our previously published protocols (Lucanic
et al.,
2017). Briefly, animals were age synchronized by performing a four-hour long egg lay on Nematode Growth Media (NGM) agar plates seeded with
E. coli
OP50-1. An average of 40 day one adult worms were transferred in triplicate to 30 mm NGM agar plates seeded with the
E. coli
strain OP50-1 and containing 50 µM 5-Fluoro-2′-deoxyuridine (FUdR). Diuron (Sigma Aldrich) was dissolved in DMSO at a concentration such that 7.5 µl of diuron solution and 125 µl of water were added to each 3 mL plate to obtain final concentrations of 10 µM, 50 µM, 100 µM, 200 µM, and 500 µM. Control plates were treated with 125 µl water and 7.5 µl DMSO. Nematodes were maintained at 20˚C and transferred to fresh plates on days 1, 2, and 4 (
C
.
tropicalis
) or 5 (
C.
briggsae
and
C.
elegans
) of adulthood, and once per week thereafter. Animals were scored manually for movement, and those that showed no movement, either spontaneous or after gentle perturbation with a 0.2 mm diameter platinum wire, were scored as dead. Animals that had burrowed or escaped the NGM plate were censored in the final analysis. The experiment was repeated in two biological replicates, with an average of 40 animals per condition across three technical replicates, for a total of 4,920 animals.
Our results indicate that diuron does not exert robust positive effects on lifespan across three species of
Caenorhabditis
nematodes (Fig. 1).
C. elegans
strain N2 showed a weakly significant, non-robust increase in mean lifespan at 100 µM and 200 µM. Conversely,
C. tropicalis
showed a significant, robust, and dose dependent decrease in lifespan at 200 µM and 500 µM, with high variability observed across biological replicates.
C. Briggsae
strain AF16 showed no significant increase or decrease in lifespan. Diuron was of interest to CITP due to effects on lifespan in a preliminary screen on
C. elegans
strain TJ1060 (Lucanic
et al.,
2018; personal communication), results that were not reproduced when tested under CITP test conditions and in CITP strains. Diuron has been shown to have toxic effects on some strains of nematodes in high concentrations (Neury‐Ormanni
et al.,
2019), consistent with our results in
C. tropicalis
(Fig. 1). Under CITP testing, the lifespan extension effect observed was small and restricted to the
elegans
species of
Caenorhabditis
. For similar initial trial lifespans in the CITP, a lifespan increase of 10% or higher is an indication that an intervention merits further testing. For example, NP-1 showed a consistent lifespan increase of ~30%, and therefore this compound was subject to extended testing by three CITP labs (Lucanic
et al.
, 2017). Diuron did not exceed an increase of 8.7%, conferred variable effects, and thus did not merit further testing in the CITP platform.