Abstract
Tristetraprolin (TTP) is the prototype of a family of CCCH tandem zinc finger proteins that can bind to AU-rich elements in mRNAs and promote their decay. TTP binds to mRNA through its central tandem zinc finger domain; it then promotes mRNA deadenylation, considered to be the rate-limiting step in eukaryotic mRNA decay. We found that TTP and its related family members could bind to certain isoforms of another AU-rich element-binding protein, HNRNPD/AUF1, as well as a related protein, laAUF1. The interaction domain within AUF1p45 appeared to be a C-terminal "GY" region, and the interaction domain within TTP was the tandem zinc finger domain. Surprisingly, binding of AUF1p45 to TTP occurred even with TTP mutants that lacked RNA binding activity. In cell extracts, binding of AUF1p45 to TTP potentiated TTP binding to ARE-containing RNA probes, as determined by RNA gel shift assays; AUF1p45 did not bind to the RNA probes under these conditions. Using purified, recombinant proteins and a synthetic RNA target in FRET assays, we demonstrated that AUF1p45, but not AUF1p37, increased TTP binding affinity for RNA ∼5-fold. These data suggest that certain isoforms of AUF1 can serve as "co-activators" of TTP family protein binding to RNA. The results raise interesting questions about the ability of AUF1 isoforms to regulate the mRNA binding and decay-promoting activities of TTP and its family members as well as the ability of AUF1 proteins to serve as possible physical links between TTP and other mRNA decay proteins and structures.
Highlights
Tristetraprolin (TTP) and related proteins can bind to AU-rich elements in target mRNAs and promote their decay
We found that TTP and its related family members could bind to certain isoforms of another AUrich element-binding protein, HNRNPD/AUF1, as well as a related protein, laAUF1
Using anti-HA antibodies in the immunoprecipitation reactions (Fig. 1C), we found that immunoprecipitation of HA-AUF1p45 brought down FLAG-human TTP (hTTP) (Fig. 1C, lane 4); this was not seen when the same extract was immunoprecipitated with normal rabbit serum (NRS) (Fig. 1C, lane 5)
Summary
Tristetraprolin (TTP) and related proteins can bind to AU-rich elements in target mRNAs and promote their decay. Tristetraprolin (TTP) is the prototype of a family of CCCH tandem zinc finger proteins that can bind to AU-rich elements in mRNAs and promote their decay. We found that TTP and its related family members could bind to certain isoforms of another AUrich element-binding protein, HNRNPD/AUF1, as well as a related protein, laAUF1. Recombinant proteins and a synthetic RNA target in FRET assays, we demonstrated that AUF1p45, but not AUF1p37, increased TTP binding affinity for RNA ϳ5-fold. These data suggest that certain isoforms of AUF1 can serve as “co-activators” of TTP family protein binding to RNA. The results raise interesting questions about the ability of AUF1 isoforms to regulate the mRNA binding and decay-promoting activities of TTP and its family members as well as the ability of AUF1 proteins to serve as possible physical links between TTP and other mRNA decay proteins and structures
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