Abstract
Tau is an intrinsically disordered, microtubule-associated protein that has a role in regulating microtubule dynamics. Despite intensive research, the molecular mechanisms of Tau-mediated microtubule polymerization are poorly understood. Here we used single-molecule fluorescence to investigate the role of Tau's N-terminal domain (NTD) and proline-rich region (PRR) in regulating interactions of Tau with soluble tubulin. We assayed both full-length Tau isoforms and truncated variants for their ability to bind soluble tubulin and stimulate microtubule polymerization. We found that Tau's PRR is an independent tubulin-binding domain that has tubulin polymerization capacity. In contrast to the relatively weak interactions with tubulin mediated by sites distributed throughout Tau's microtubule-binding region (MTBR), resulting in heterogeneous Tau: tubulin complexes, the PRR bound tubulin tightly and stoichiometrically. Moreover, we demonstrate that interactions between the PRR and MTBR are reduced by the NTD through a conserved conformational ensemble. On the basis of these results, we propose that Tau's PRR can serve as a core tubulin-binding domain, whereas the MTBR enhances polymerization capacity by increasing the local tubulin concentration. Moreover, the NTD appears to negatively regulate tubulin-binding interactions of both of these domains. The findings of our study draw attention to a central role of the PRR in Tau function and provide mechanistic insight into Tau-mediated polymerization of tubulin.
Highlights
Using a similar approach as described in that work, we analyzed the individual autocorrelation curves of tau2N and PRR-MTBR-R’ taken in the presence of 10 M tubulin to assess the heterogeneity of the Tau: tubulin complexes (Fig. 4A; for details regarding the analysis, see “Experimental procedures”)
It was apparent that Tau:tubulin complexes formed by PRRMTBR-R’ were, on average, larger than those formed by tau2N (median ϭ 1.29 ms), and that PRR-MTBR-R’–tubulin complexes had the largest spread in diffusion times (1.26 –2.89 ms)
CFCS is the residue number mutated to cysteine for labeling for FCS measurements. D of Tau constructs are in the absence and presence of 10 M tubulin
Summary
Tau is an intrinsically disordered, microtubule-associated protein that has a role in regulating microtubule dynamics. We used single-molecule fluorescence to investigate the role of Tau’s N-terminal domain (NTD) and proline-rich region (PRR) in regulating interactions of Tau with soluble tubulin. We assayed both full-length Tau isoforms and truncated variants for their ability to bind soluble tubulin and stimulate microtubule polymerization. There are six different isoforms of Tau, arising from alternative splicing, resulting in the presence of no, one, or two inserts in the N-terminal domain (NTD) and three or four repeats within the microtubule-binding region (MTBR) (Fig. 1) [13] Expression of these isoforms is regulated across developmental stage, cell type, and cellular location [3, 13]. We propose a model where the PRR serves as a core tubulin-binding
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