We previously showed that the conductance of a mitochondrial inner membrane channel, called MCC, was specifically blocked by peptides corresponding to mitochondrial import signals. To determine if MCC plays a role in protein import, we examined the relationship between MCC and Tim23p, a component of the protein import complex of the mitochondrial inner membrane. We find that antibodies against Tim23p, previously shown to inhibit mitochondrial protein import, inhibit MCC activity. We also find that MCC activity is altered in mitochondria isolated from yeast carrying the tim23-1 mutation. In contrast to wild-type MCC, we find that the conductance of MCC from the tim23-1 mutant is not significantly blocked by mitochondrial presequence peptides. Tim23 antibodies and the tim23-1 mutation do not, however, alter the activity of PSC, a presequence-peptide sensitive channel in the mitochondrial outer membrane. Our results show that Tim23p is required for normal MCC activity and raise the possibility that precursors are translocated across the inner membrane through the pore of MCC.
Tim23, a Protein Import Component of the Mitochondrial Inner Membrane, Is Required for Normal Activity of the Multiple Conductance Channel, MCC
Timothy A. Lohret's present address is Department of Anatomy and Cell Biology, Emory University School of Medicine, Atlanta, GA 303223030.
1. Abbreviations used in this paper: MCC, multiple conductance channel; PSC, peptide-sensitive channel; VDAC, voltage-dependent anion-selective channel.
This research was supported by National Science Foundation grant MCB9513439 (K.W. Kinnally) and U.S. Public Health Service grant RO1GM46803 (R.E. Jensen).
Please address all correspondence to Kathleen Kinnally, Wadsworth Center, Empire State Plaza, P.O. Box 509, Albany, NY 12201-0509. Tel.: (518) 474-4229. Fax: (518) 474-7992. E-mail: [email protected]
Timothy A. Lohret, Robert E. Jensen, Kathleen W. Kinnally; Tim23, a Protein Import Component of the Mitochondrial Inner Membrane, Is Required for Normal Activity of the Multiple Conductance Channel, MCC. J Cell Biol 21 April 1997; 137 (2): 377–386. doi: https://doi.org/10.1083/jcb.137.2.377
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