Cis and trans Sites of the TOM Complex of Mitochondria in Unfolding and Initial Translocation of Preproteins

Doron Rapaport,Andreas Mayer,Walter Neupert,Roland Lill

doi:10.1074/jbc.273.15.8806

Doron Rapaport, Andreas Mayer + Show 2 more

Open Access

https://doi.org/10.1074/jbc.273.15.8806

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Abstract

Translocation of preproteins across the mitochondrial outer membrane is mediated by the TOM complex. Our previous studies led to the concept of two preprotein binding sites acting in series, the surface-exposed cis site and the trans site exposed to the intermembrane space. We report here that preproteins are bound to the cis site in a labile fashion even at low ionic strength, whereas intermediates arrested at the trans site remained firmly bound at higher salt concentration. The stability of the trans site intermediate results from interactions of both the presequence and unfolded parts of the mature part of the preprotein with the TOM complex. Binding to the trans site proceeded at rates comparable with those of unfolding of the mature domain and appeared to be kinetically limited by the unfolding reaction. Efficient binding to the trans site and unfolding were observed with both outer membrane vesicles and intact mitochondria whose membrane potential, DeltaPsi, was dissipated. Upon re-establishing DeltaPsi, trans site-bound preprotein resumed translocation into the matrix. The rates of unfolding and binding to the trans site were the same as those for translocation into intact energized mitochondria. We conclude that preprotein unfolding in intact mitochondria can take place without the involvement of the translocation machinery of the inner membrane and, in particular, the matrix Hsp70 chaperone. Further, preprotein unfolding at the outer membrane can be a rate-limiting step for formation of the trans site intermediate and for the entire translocation reaction.

Highlights

The transport of proteins across biological membranes involves the assistance of specific multi-subunit translocases
Even after treatment with 600 mM KCl, only 40% of the bound preprotein was released from the outer membrane vesicles (OMV), indicating that ionic interactions play a minor role for the association with the trans site
We conclude from these data that we can distinguish between preprotein binding to the cis and trans sites of the mitochondrial outer membrane on the basis of their differential sensitivity to salt extraction

Summary

Introduction

The transport of proteins across biological membranes involves the assistance of specific multi-subunit translocases (for reviews, see Refs. 1–7). A conformational change of mtHsp during the association with the preprotein is thought to be transduced into a directional force leading to the unfolding of domains still outside the mitochondrion [14, 15] In another view, mtHsp acts as part of a “molecular ratchet” which prevents the retrograde movement of the incoming polypeptide chain [16]. Presequences are recognized by the co-operative action of the receptors Tom20/Tom which form a presequence recognition site termed cis site [25, 26] At this site, the preprotein is bound mainly through electrostatic interactions. The unfolding event at the outer membrane was found to be rate-limiting for both the interaction of the preprotein with the trans site and for the entire translocation process

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Results

Conclusion