The 26S proteasome is one of the major proteolytic machineries in cells and is composed of nearly 33 different subunits (Budenholzer et al., 2017; Chen et al., 2008; Papaevgeniou and Chondrogianni, 2014). The subunits are arranged as one or two 19S regulatory particle(s) capping a cylindrical catalytic 20S core particle (Budenholzer et al., 2017). Each subunit is highly conserved from yeast to mammals, and proper function of the proteasome is crucial for survival of organisms (Papaevgeniou and Chondrogianni, 2014). Spatiotemporal expression of specific subunits and their roles in regulating the proteasome activity is still not clearly understood.
RPN-12 is a subunit of the 19S regulatory particle (RP) of the 26S proteasome in Caenorhabditis elegans (Boehringer et al., 2012; Takahashi et al., 2002). In C. elegans, loss or down regulation of a single proteasome subunit causes embryonic lethality, with the exception of three of the 19S RP subunits: RPN-10, RPN-12, and DSS-1 (Keith et al., 2016; Pispa et al., 2008; Shimada et al., 2006; Takahashi et al., 2002). While the roles of RPN-10 and DSS-1 were previously studied, more detailed investigation into the function of RPN-12 has not been performed. A heterozygous mutant containing a 952bp deletion of the coding region of
rpn-12 was generated [
rpn-12(
av93)] using CRISPR/Cas9 genome editing technology. The heterozygous
rpn-12 null mutant was then homozygosed and determined to be homozygous viable with apparent fertility issues. Only 36% of the
rpn-12(
av93) hermaphrodites produced progeny due to sperm production defects (this phenotype will be published elsewhere). Since efficient proteasome activity is important for the longevity of most organisms, we wanted to investigate whether
rpn-12(
av93) mutants may have an altered lifespan compared to wild type animals (Saez and Vilchez, 2014; Vilchez et al., 2012). To determine whether the lifespan of
rpn-12(
av93) mutant animals was affected, lifespan assays were conducted at 20C and 25C. The mean lifespan of
rpn-12(
av93) hermaphrodites (15.94 days) was not significantly different from wild type hermaphrodites (15.54 days) at 20C. Interestingly, at 25C the mean lifespan of
rpn-12(
av93) hermaphrodites (15.59 days) was increased compared to wild type animals (12.80 days). However, the maximum lifespan of both
rpn-12(
av93) and wild type hermaphrodites was not significantly different at 25C. The lifespan analysis at 20C was performed three times (cumulative wild type n=240 and mutant n=192) and at 25C was performed twice (cumulative wild type n=185 and mutant n=135). Our data suggests that RPN-12 is not essential for viability and lifespan of C. elegans under normal conditions (20C), but that absence of RPN-12 can result in a significant increase in mean lifespan under heat stress (25C).