Interactions of Mitochondrial Presequence Peptides with the Mitochondrial Outer Membrane Preprotein Translocase TOM

TOM protein-conducting channels serve as the main entry sites into mitochondria for virtually all mitochondrial proteins. When incorporated into lipid bilayers, they form large, relatively nonspecific ion channels that are blocked by peptides derived from mitochondrial precursor proteins. Using single-channel electrical recordings, we analyzed the interactions of mitochondrial presequence peptides with single TOM pores. The largest conductance state of the translocon represents the likely protein-conducting conformation of the channel. The frequency (but not the duration) of the polypeptide-induced blockage is strongly modulated by the substrate concentration. Structural differences between substrates are reflected in characteristic blockage frequencies and duration of blockage. To our knowledge, this study provides first quantitative data regarding the kinetics of polypeptide interaction with the mitochondrial TOM machinery.     

Electron Microscopic Analysis of a Spherical Mitochondrial Structure

Mitochondria undergo dynamic structural alterations to meet changing needs and to maintain homeostasis. We report here a novel mitochondrial structure. Conventional transmission electron microscopic examination of murine embryonic fibroblasts treated with carbonyl cyanide m-chlorophenylhydrazone (CCCP), a mitochondrial uncoupler, found that more than half of the mitochondria presented a ring-shaped or C-shaped morphology. Many of these mitochondria seemed to have engulfed various cytosolic components. Serial sections through individual mitochondria indicated that they formed a ball-like structure with an internal lumen surrounded by the membranes and containing cytosolic materials. Notably, the lumen was connected to the external cytoplasm through a small opening. Electron tomographic reconstruction of the mitochondrial spheroids demonstrated the membrane topology and confirmed the vesicular configuration of this mitochondrial structure. The outside periphery and the lumen were defined by the outer membranes, which were lined with the inner membranes. Matrix and cristae were retained but distributed unevenly with less being kept near the luminal opening. Mitochondrial spheroids seem to form in response to oxidative mitochondrial damage independently of mitophagy. The structural features of the mitochondrial spheroids thus represent a novel mitochondrial dynamics.     

Role of Phosphatidylethanolamine in the Biogenesis of Mitochondrial Outer Membrane Proteins

The mitochondrial outer membrane contains proteinaceous machineries for the import and assembly of proteins, including TOM (translocase of the outer membrane) and SAM (sorting and assembly machinery). It has been shown that the dimeric phospholipid cardiolipin is required for the stability of TOM and SAM complexes and thus for the efficient import and assembly of β-barrel proteins and some α-helical proteins of the outer membrane. Here, we report that mitochondria deficient in phosphatidylethanolamine (PE), the second non-bilayer-forming phospholipid, are impaired in the biogenesis of β-barrel proteins, but not of α-helical outer membrane proteins. The stability of TOM and SAM complexes is not disturbed by the lack of PE. By dissecting the import steps of β-barrel proteins, we show that an early import stage involving translocation through the TOM complex is affected. In PE-depleted mitochondria, the TOM complex binds precursor proteins with reduced efficiency. We conclude that PE is required for the proper function of the TOM complex.     

Electron Microscopy of the Major Outer Membrane Protein of Campylobacter jejuni

The surfaces of the disrupted-cell surfaces of the Campylobacter jejuni strains FUM158432 and M1 were examined using the negative-staining technique and electron microscopy. The surfaces of the whole cells and the outer membranes were covered with small dark dots which, in some areas, were arranged in hexagonal patterns. The hexagonal arrangement was more clearly seen in extracted outer membrane. The size of each structure was measured based on a center-to-center distance with the adjacent structure, and was determined to be 9.9±0.9 nm. A profile of the proteins in the outer membrane by SDS-PAGE, performed in 0.1% SDS and at 100 C, showed 42 kDa proteins to comprise the major outer membrane protein of this bacterium. Digestion of the outer membrane materials with proteinase reduced this protein band in the SDS-PAGE, and the amount of dark dots on the electron micrograph indicated the structure to be the major outer membrane protein (porin) of this bacterium. The power spectrogram of a computer-assisted Fourier transformation of the hexagonally arranged porin proteins suggests that the porin has a trimeric structure rather than a monomeric one.     

Light and Electron Microscopic Investigation of Equine Synovial Membrane

Light and electron microscopic examination was made on equine synovial membrane from 23 healthy joints, nine joints with synovitis caused by intraarticular fracture and 10 joints with synovitis caused by osteochondrosis dissecans. Histologically as well as ultrastructurally the equine synovial membrane from healthy joints was of principally the same character as described in other species. Three types of synovial membrane — areolar, fibrous and adipose — and two types of lining cell were distinguished histologically. Ultrastructurally three types of lining cells were distinguished: A and Β type and an intermediate cell type. In healthy joints they were loosely arranged, parallel to the joint surface in an intercellular matrix, which was in direct continuity with the joint space. In joints with intraarticular fracture there was mild inflammation of the synovial membrane. There was elongation and hyperplasia of the lining cells with a relative increase in type A cells. The cell surface of lining cells was increased through filopodia. There was also an increase in cytoplasmic organelles i.e. hyperplasia of rough endoplasmic reticulum and Golgi complexes in Β type cells and an increase in lysosomes, and increased numbers of vesicles of varying types in A cells. In joints with osteochondrosis dissecans the lining cell hyperplasia and the inflammation in the synovial membrane were more prominent. Ultrastructurally the same alterations as in the previous group were seen including a relative increase in the number of A cells but degenerative changes were common in the lining cells. These changes were dilatation and vesiculation of rough endoplasmic reticulum, mitochondrial condensation, dilatation of the nuclear envelope and loss of plasma membranes, leading to disintegration of cells.     

紫膜表面电荷数的测量

以CAT₁₂为自旋探针,用ESR自旋标记法测量了不同表面pH时酰化前后紫膜表面负电荷密度,以酰化所屏蔽的表面电荷数为标准,计算了表面pH4-11时单位菌紫质紫膜两侧的总负电荷数.结果表明:表面pH5-9时为9,表面pH≥10及表面pH < 5时增大.结果有力支持了膜表面5个二价阳离子结合位点的模型.     

Mitochondrial Outer Membrane Proteins Assist Bid in Bax-mediated Lipidic Pore Formation

Mitochondrial outer membrane permeabilization (MOMP) is a critical step in apoptosis and is regulated by Bcl-2 family proteins. In vitro systems using cardiolipin-containing liposomes have demonstrated the key features of MOMP induced by Bax and cleaved Bid; however, the nature of the “pores” and how they are formed remain obscure. We found that mitochondrial outer membranes contained very little cardiolipin, far less than that required for liposome permeabilization, despite their responsiveness to Bcl-2 family proteins. Strikingly, the incorporation of isolated mitochondrial outer membrane (MOM) proteins into liposomes lacking cardiolipin conferred responsiveness to cleaved Bid and Bax. Cardiolipin dependence was observed only when permeabilization was induced with cleaved Bid but not with Bid or Bim BH3 peptide or oligomerized Bax. Therefore, we conclude that MOM proteins specifically assist cleaved Bid in Bax-mediated permeabilization. Cryoelectron microscopy of cardiolipin-liposomes revealed that cleaved Bid and Bax produced large round holes with diameters of 25–100 nm, suggestive of lipidic pores. In sum, we propose that activated Bax induces lipidic pore formation and that MOM proteins assist cleaved Bid in this process in the absence of cardiolipin.     

The Role of Yeast VDAC Genes on the Permeability of the Mitochondrial Outer Membrane

In addition to the POR1 gene, which encodes the well-characterized voltage dependent anion-selective channel (YVDAC1) of the mitochondrial outer membrane, the yeast Saccharomyces cerevisiae contains a second gene (POR2) encoding a protein (YVDAC2) with 50% sequence identity to YVDAC1. Mitochondria isolated from yeast cells deleted for the POR1 gene (Δpor1) had a profoundly reduced outer membrane permeability as measured by the ability of an intermembrane space dehydrogenase to oxidize exogenously added NADH. Mitochondria missing either YVDAC1 or both YVDAC1 and YVDAC2 showed a 2-fold increase in the rate of NADH oxidation when the outer membrane was deliberately damaged. Mitochondria from parental cells showed only a 10% increase indicating that the outer membrane is highly permeable to NADH. In the absence of YVDAC1, we calculate that the outer membrane permeability to NADH is reduced 20-fold. The low NADH permeability in the presence of YVDAC2 was not due to the low levels of YVDAC2 expression as mitochondria from cells expressing levels of YVDAC2 comparable to those of YVDAC1 in parental cells showed no substantial increase in NADH permeability, indicating a minimal role of YVDAC2 in this permeability. The residual permeability may be due to other pathways because cells missing both genes can still grow on nonfermentable carbon sources. However, YVDAC1 is clearly the major pathway for NADH flux through the outer membrane in these mitochondria. Received: 23 May 1997/Revised: 3 October 1997     

Dual Electron Microscopic Localization of Mitochondrial Creatine Kinase in Brain Mitochondria

Mitochondrial creatine kinase in brain mitochondria appears to be located at two different intramitochondrial sites. By using immunogold-labeling techniques, a peripheral immunoreactivity was localized between the two boundary membranes, while an additional, central immunoreactivity was found at the crista surface. The peripheral enzyme was accessible to the antibodies after treatment of the brain mitochondria with 100-300 μg digitonin/mg mitochondrial protein, which left 75% of the activity bound to the membranes. Electron microscopic analyses revealed that 43% of the labeled, peripheral creatine kinase was bound at those places where outer membrane vesicles remained attached to the inner envelope membrane, suggesting that the enzyme is in involved in contact formation between outer and inner mitochondrial membranes. Postembedding staining of mitochondria on thin sections of brain tissue or in the isolated state led to the observation of a second location of creatine kinase inside the mitochondria, along the cristae, which was not accessible to the antibodies in isolated, digitonin-treated mitochondria.     

Formation of Mitochondrial Outer Membrane Derived Protrusions and Vesicles in Arabidopsis thaliana

Mitochondria are dynamic organelles that have inner and outer membranes. In plants, the inner membrane has been well studied but relatively little is known about the outer membrane. Here we report that Arabidopsis cells have mitochondrial outer membrane-derived structures, some of which protrude from the main body of mitochondria (mitochondrial outer-membrane protrusions; MOPs), while others form vesicle-like structures without a matrix marker. The latter vesicle-like structures are similar to some mammalian MDVs (mitochondrial-derived vesicles). Live imaging demonstrated that a plant MDV budded off from the tip of a MOP. MDVs were also observed in the drp3a drp3b double mutant, indicating that they could be formed without the mitochondrial fission factors DRP3A and DRP3B. Double staining studies showed that the MDVs were not peroxisomes, endosomes, Golgi apparatus or trans-Golgi network (TGN). The numbers of MDVs and MOPs increased in senescent leaves and after dark treatment. Together, these results suggest that MDVs and MOPs are related to leaf senescence.     

Nonselective Cation and BK Channels in Apical Membrane of Outer Sulcus Epithelial Cells

The outer sulcus epithelium was recently shown to absorb cations from the lumen of the gerbil cochlea. Patch clamp recordings of excised apical membrane were made to investigate ion channels that participate in this reabsorptive flux. Three types of channel were observed: (i) a nonselective cation (NSC) channel, (ii) a BK (large conductance, maxi K or K _Ca ) channel and (iii) a small K⁺ channel which could not be fully characterized. The NSC channel found in excised insideout patch recordings displayed a linear current-voltage (I-V) relationship (27 pS) and was equally conductive for Na⁺ and K⁺, but not permeable to Cl⁻ or N-methyl-d-glucamine. Channel activity required the presence of Ca²⁺ at the cytosolic face, but was detected at Ca²⁺ concentrations as low as 10⁻⁷ m (open probability (P _o ) = 0.11 ± 0.03, n= 8). Gadolinium decreased P _o of the NSC channel from both the external and cytosolic side (IC₅₀∼ 0.6 μm). NSC currents were decreased by amiloride (10 μm− 1 mm) and flufenamic acid (0.1 mm). The BK channel was also frequently (38%) observed in excised patches. In symmetrical 150 mm KCl conditions, the I-V relationship was linear with a conductance of 268 pS. The Goldman-Hodgkin-Katz equation for current carried solely by K⁺ could be fitted to the I-V relationship in asymmetrical K⁺ and Na⁺ solutions. The channel was impermeable to Cl⁻ and N-methyl-d-glucamine. P _o of the BK channel increased with depolarization of the membrane potential and with increasing cytosolic Ca²⁺. TEA (20 mm), charybdotoxin (100 nm) and Ba²⁺ (1 mm) but not amiloride (1 mm) reduced P _o from the extracellular side. In contrast, external flufenamic acid (100 μm) increased P _o and this effect was inhibited by charybdotoxin (100 nm). Flufenamic acid inhibited the inward short-circuit current measured by the vibrating probe and caused a transient outward current. We conclude that the NSC channel is Ca²⁺ activated, voltage-insensitive and involved in both constitutive K⁺ and Na⁺ reabsorption from endolymph while the BK channel might participate in the K⁺ pathway under stimulated conditions that produce an elevated intracellular Ca²⁺ or depolarized membrane potential. Received: 14 October 1999/Revised: 10 December 1999     

电镜分析非晶状体晶状体蛋白与三叶因子蛋白复合物在人红细胞膜上的孔道形成效应

非晶状体βγ晶状体蛋白与三叶因子蛋白复合物(non-lens βγ-crystallin and trefoil factor complex,βγ-CAT)是一个从大蹼铃蟾 (Bombina maxima) 皮肤分泌物中分离的天然分子量为72 kDa的全新的蛋白复合物。本研究测定了βγ-CAT处理红细胞后引起细胞内钾离子外流与溶血效应的时效曲线,结合扫描电子显微镜和透射电子显微镜分析βγ-CAT处理红细胞引起的早期形态学变化。结果表明：βγ-CAT(3 nmol/L)37℃处理红细胞5 min,（93.31±5.89）%的细胞内钾离子迅速外流(P<0.01),相应溶解率为（13.12±1.92）% (P<0.05)。电子显微镜观察发现红细胞形态发生明显变化,细胞体积增加,肿胀。少数红细胞表面向外形成棘状异常突起,部分肿胀细胞内的血红蛋白通过棘状突起缺口向细胞外喷射血红蛋白。表明βγ-CAT通过在红细胞膜上形成孔道使细胞内钾离子迅速外流导致红细胞内渗透压改变而溶血。其结果为理解bg-CAT的溶血机制提供了直接的形态学证据     

The Influence of Specific Phospholipids on the Interaction of Hexokinase with the Outer Mitochondrial Membrane

Repeated washing of a brain mitochondrial fraction results in a progressive decrease in the proportion of mitochondrially bound hexokinase that can be solubilized during a subsequent incubation with glucose-6-phosphate (glucose-6-P). Phospholipids removed during the washing procedure can be added back to washed mitochondria, resulting in enhancement of the solubilization by glucose-6-P. Column and thin-layer chromatographic methods have been used to isolate and identify active phospholipids. Additional studies were performed with purified lipids obtained commercially. Both lysophospholipids and acidic phospholipids were active in enhancing solubilization of hexokinase by glucose-6-P. Phospho-inositides, particularly diphosphoinositide, were quite effective, raising the possibility that the actively metabolized phosphoinositides may be involved in regulation of hexokinase binding in vivo.     

Dual Role of Mitochondrial Porin in Metabolite Transport across the Outer Membrane and Protein Transfer to the Inner Membrane

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In Rat Liver Mitochondria All Nucleoside Diphosphate Kinase of the Outer Compartment Is Associated with the Outer Surface of the Outer Membrane

Data on localization of nucleoside diphosphate kinase (NDPK) in the outer mitochondrial compartment are contradictory. We have demonstrated that repeated quintuple wash of a mitochondrial pellet (protein concentration is about 2 mg/ml) solubilized only 60% of total NDPK activity. Since no release of adenylate kinase, the marker enzyme of the intermembrane space, was observed, it was concluded that the solubilized NDPK activity was associated with the outer surface of the outer mitochondrial membrane. Treatment of mitochondria with digitonin solutions in low (sucrose, mannitol) or high (KCl) ionic strength media revealed that solubilization of remaining NDPK activity basically coincided with the solubilization curve of monoamine oxidase, the marker enzyme of the outer mitochondrial membrane, but differed from solubilization behavior of adenylate kinase and malate dehydrogenase. We concluded that the remaining NDPK activity was also associated with the outer mitochondrial membrane and electrostatic interactions were not essential for NDPK binding to mitochondrial membranes. Results of polarographic determination of remaining adenylate kinase and NDPK activities of mitochondria incubated in ice for different time intervals and subjected to subsequent centrifugation suggest that all NDPK activity of the outer compartment of rat liver mitochondria is associated with the outer surface of the outer mitochondrial membrane. We suggest the existence of at least three NDPK fractions. They represent 70, 15, and 15% of total NDPK activity of the outer compartment and differ by tightness of membrane binding.