Evidence for the involvement of a mitochondrial permeability transistion in a victorin-Induced cell death

Curtis, Marc James

27 March 2003

Graduation date: 2003

Plant-pathogen relationships

Mitochondrial membranes

Oats -- Diseases and pests

Plants -- Effect of mycotoxins on

Helminthosporium victoriae

Apoptosis

Mitochondrial Involvement in the Accumulation of Misfolded Proteins in Neurodegenerative Diseases

Fukui, Hirokazu

26 March 2008

Mitochondrial respiratory chain deficiency and increased oxidative stress have been closely associated with major age-associated neurodegenerative diseases. I hypothesized that mitochondrial oxidative phosphorylation defects or elevated oxidative stress, which could arise in a stochastic manner during our normal aging process, might modulate the formation of protein aggregates or production of misfolded proteins, contributing to the initiation of these diseases. To test this hypothesis, we (i) have developed and characterized mouse and cellular models of Alzheimer's and Huntington's diseases expressing aggregate-prone pathogenic proteins, beta-amyloid and mutant huntingtin (Chapters 1 and 2), (ii) have developed mouse models that exhibit neuron-specific defects in mitochondrial oxidative phosphorylation (Chapters 2 and 3), and (iii) have evaluated the alterations in the amount of aggregate loads upon genetic and pharmacological manipulations of mitochondrial oxidative phosphorylation activities (Chapters 1 and 2). The evaluation of the impacts of mitochondrial defects on the amount of huntingtin aggregates has revealed that a defect in complex III promotes the accumulation of huntingtin aggregates via the impairment of proteasome activity (Chapter 1). On the other hand, ablation of complex IV activity in a subset of postmitotic neurons revealed that complex IV deficiency does not promote either oxidative stress or the deposition of amyloid plaques in a mouse model of Alzheimer's disease, questioning the mitochondrial origin of Alzheimer's disease (Chapter 2). However, as shown previously, the tight correlation between oxidative stress and accumulation of amyloid plaques was found. Chapter 3 involved the generation of an improved mouse model, in which mitochondrial defects can be induced in a subset of forebrain neurons (cortex, hippocampus, and striatum) in a doxycycline-dependent manner. This system relies on the regulated expression of a mitochondria-targeted restriction enzyme, PstI, which digests mitochondrial DNA and thereby impairs the activity of oxidative phosphorylation. In conclusion, our studies highlighted the disease-specific complex pathways that may modulate the accumulation of misfolded proteins during aging. Future studies employing the newly-developed mouse model may reveal a contribution of age-associated global defects of oxidative phosphorylation to oxidative stress and neurodegenerative diseases.

Oxidative Phosphorylation

Aging

Alzheimer's Disease

Huntington's Disease

Mitochondrial DNA

Oxidative Stress

On the phylogenetic position of Myzostomida : can 77 genes get it wrong?

Bleidorn, Christoph, Podsiadlowski, Lars, Zhong, Min, Eeckhaut, Igor, Hartmann, Stefanie, Halanych, Kenneth M., Tiedemann, Ralph

January 2009

Background: Phylogenomic analyses recently became popular to address questions about deep metazoan phylogeny. Ribosomal proteins (RP) dominate many of these analyses or are, in some cases, the only genes included. Despite initial hopes, hylogenomic analyses including tens to hundreds of genes still fail to robustly place many bilaterian taxa. Results: Using the phylogenetic position of myzostomids as an example, we show that phylogenies derived from RP genes and mitochondrial genes produce incongruent results. Whereas the former support a position within a clade of platyzoan taxa, mitochondrial data recovers an annelid affinity, which is strongly supported by the gene order data and is congruent with morphology. Using hypothesis testing, our RP data significantly rejects the annelids affinity, whereas a platyzoan relationship is significantly rejected by the mitochondrial data. Conclusion: We conclude (i) that reliance of a set of markers belonging to a single class of macromolecular complexes might bias the analysis, and (ii) that concatenation of all available data might introduce conflicting signal into phylogenetic analyses. We therefore strongly recommend testing for data incongruence in phylogenomic analyses. Furthermore, judging all available data, we consider the annelid affinity hypothesis more plausible than a possible platyzoan affinity for myzostomids, and suspect long branch attraction is influencing the RP data. However, this hypothesis needs further confirmation by future analyses.

Cirriferum myzostomida

Mitochondrial genomes

Transfer-rna

Data sets

Sequence

Life sciences

Early steps in the biogenesis of the bc1 complex in yeast mitochondria : The role of the Cbp3-Cbp6 complex in cytochrome b synthesis and assembly

Gruschke, Steffi

January 2012

The inner membrane of mitochondria harbors the complexes of the respiratory chain and the ATP synthase, which perform the key metabolic process oxidative phosphorylation. These complexes are composed of subunits from two different genetic origins: the majority of constituents is synthesized on cytosolic ribosomes and imported into mitochondria, but a handful of proteins, which represent core catalytic subunits, are encoded in the organellar DNA and translated on mitochondrial ribosomes. Using yeast as a model organism, I investigated the mitochondrial ribosomal tunnel exit, the region of the ribosome where the nascent chain emerges and that in cytosolic ribosomes serves as a platform to bind biogenesis factors that help the newly synthesized protein to mature. This study provided insights into the structural composition of this important site of mitochondrial ribosomes and revealed the positioning of Cbp3 at the tunnel exit region, a chaperone required specifically for the assembly of the bc1 complex. In my further work I found that Cbp3 structurally and functionally forms a tight complex with Cbp6 and that this complex exhibits fundamental roles in the biogenesis of cytochrome b, the mitochondrially encoded subunit of the bc1 complex. Bound to the ribosome, Cbp3-Cbp6 stimulates translation of the cytochrome b mRNA (COB mRNA). Cbp3-Cbp6 then binds the fully synthesized cytochrome b, thereby stabilizing and guiding it further through bc1 complex assembly. The next steps involve the recruitment of the assembly factor Cbp4 to the Cbp3-Cbp6/cytochrome b complex and presumably acquisition of two redox active heme b cofactors. During further assembly Cbp3-Cbp6 is released from cytochrome b, can again bind to the ribosome and activate further rounds of COB mRNA translation. The dual role of Cbp3-Cbp6 in both translation and assembly allows the complex to act as a regulatory switch to modulate the level of cytochrome b synthesis in response to the bc1 complex assembly process. / <p>At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 4: Manuscript.</p>

mitochondria

respiratory chain assembly

bc1 complex

mitochondrial gene expression

translational regulation

hemylation

Population Genetic Analyses of Natal Dispersal and Substructure in Three Bird Species

Sahlman, Tobias

January 2007

Genetic variation within and among populations is a result of past and ongoing processes. Among the most important of such processes are dispersal, habitat fragmentation and selection. This thesis use neutral genetic variation as a tool to investigate these processes in three bird species. In the Siberian jay, the timing of dispersal is dependent on social dominance among siblings. Mark-recapture data, radio-tracking and genetic variation was used to investigate whether timing of dispersal had an effect on dispersal distance. The results show that early dispersing individuals also disperse longer. In the same species, genetic correlation between neighbours was used to find areas with high production of philopatric individuals, which could be indicative of high habitat quality. Great snipe populations in northern Europe have a breeding range divided into two regions. A QST-FST approach was applied to study variation in selection between regions. Differentiation between the regions in neutral molecular markers was low, indicating high gene flow, or short time available for neutral divergence. Morphological divergence between the regions was high, and QST &gt; FST, which indicates divergent selection. Thus, neutral genetic markers can be misleading in identifying evolutionary significant units, and the QST-FST approach might be valuable to identify targets for conservation. Rock ptarmigan, or its ancestors, originated in Beringia, and spread throughout the Holarctic region. Their distribution has subsequently been affected by glaciations, most likely leading to withdrawals and re-colonisations. Neutral genetic variation among five populations around the northern Atlantic was investigated. There was strong genetic structure among the populations, and evidence that Scandinavian rock ptarmigan has been isolated from other populations for considerable time. Rock ptarmigan in Svalbard showed slightly lower genetic variation than others, and comparisons with other studies suggested an eastern colonisation route to Svalbard.

Ecology

Perisoreus infaustus

Gallinago media

Lagopus muta

relatedness

philopatry

biased dispersal

phylogeography

microsatellite

mitochondrial DNA

Ekologi

Cell signaling by Rho and Miro GTPases : Studies of Rho GTPases in Cytoskeletal Reorganizations and of Miro GTPases in Mitochondrial Dynamics

Fransson, Åsa

January 2008

The Ras superfamily of GTPases embraces six major branches of proteins: the Ras, Rab, Ran, Arf, Rho and Miro subfamilies. The majority of GTPases function as binary switches that cycle between active GTP-bound and inactive GDP-bound states. This thesis will focus primarily on the biological functions of the Rho and Miro proteins. The Rho GTPases control the organization of the actin cytoskeleton and other associated activities, whereas the Miro GTPases are regulators of mitochondrial movement and morphology. A diverse array of cellular phenomena, including cell movement and intracellular membrane trafficking events, are dependent on cytoskeletal rearrangements mediated by Rho GTPases. Although human Rho GTPases are encoded by 20 distinct genes, most studies involving Rho GTPases have focused on the three representatives RhoA, Rac1 and Cdc42, which each regulate specific actin-dependent cellular processes. In an effort to compare the effects of all Rho GTPase members in the same cell system, we transfected constitutively active Rho GTPases in porcine aortic endothelial (PAE) cells and examined their effects on the organization of the actin cytoskeleton. We identified a number of previously undetected roles of the different members of the Rho GTPases. Moreover, we demonstrated that the downstream effectors of Rho GTPases have a broader specificity than previously thought. In a screen for novel Ras-like GTPases, we identified the Miro GTPases (Mitochondrial Rho). In our characterization of Miro, we established that these proteins influence mitochondrial morphology and serve functions in the transport of mitochondria along the microtubule system. Additionally, we provided evidence that Miro can be under control of calcium signaling pathways. Mitochondria are highly dynamic organelles that undergo continuous change in shape and distribution. Defects in mitochondrial dynamics are associated with several neurodegenerative diseases. In conclusion, our findings have contributed to a deeper understanding of the biological roles of Rho and Miro GTPases.

Ras superfamily

Rho GTPases

cytoskeleton

Miro GTPases

mitochondrial dynamics

Cell and molecular biology

Cell- och molekylärbiologi

Genomic Analyses of the Complete Mitochondrial DNA Sequences of Five Alcyonacea Corals

Chen, Chun-ting

29 August 2007

Corals are the dominant species of the coral reefs. The diversity of species is classified by traditional morphological traits, especially relied on the calcious deposits-sclerites. The formation of sclerites may be affected by the environmental conditions; therefore, some controversies may exist. The ambiguities may be clarified with molecular approaches. Five soft coral species, Lobophytum pauciflorum, Sinularia leptoclado, Sinularia flexibilis, Sarcophyton sp., Nephthea erecta were chosen for this study. The total mitochondrial DNA sequences were determined by PCR and primer walking. The genome contains 18562 bp, 18732 bp, 18752 bp, 18806 bp, 18716 bp separately, which harbors 14 protein-coding genes (ATP6¡BATP8¡BCOI¡BCOII¡BCOIIII¡BCYTB¡BND1¡BND2¡BND3¡BND4¡BND4L¡BND5¡BND6¡BMSH), 2 rRNA and only 1 tRNA genes. The phylogenetic relationship of alcyonacea corals were analyzed and compared with published sequences. The possibility of using a short ¡§DNA bar-code sequence¡¨ of the mitochondria as an alternative for species identification may be feasible. We found the short DNA signature sequences for these five corals. They may speed up the identification of corals in the long run.

Sinularia leptoclado

Alcyonacea

mitochondrial DNA

Lobophytum pauciflorum

Nephthea erecta

Sarcophyton sp.

Sinularia flexibilis

Sensitive Identification Tools in Forensic DNA Analysis

Edlund, Hanna

January 2010

DNA as forensic evidence is valuable in criminal investigations. Implementation of new, sensitive and fast technologies is an important part of forensic genetic research. This thesis aims to evaluate new sensitive methods to apply in forensic DNA analysis including analysis of old skeletal remains. In Paper I and II, two novel systems for analysis of STRs, based on the Pyrosequencing technology, are presented. In Paper I, Y chromosomal STRs are analysed. Markers on the male specific Y chromosome are especially useful in analysis of DNA mixtures. In Paper II, ten autosomal STRs are genotyped. The systems are based on sequencing of STR loci instead of size determination of STR fragments as in routine analysis. This provides a higher resolution since sequence variants within the repeats can be detected. Determination of alleles is based on a termination recognition base. This is the base in the template strand that is excluded from the dispensation order in the sequencing of the complementary strand and therefore terminates the reaction. Furthermore, skeletal remains are often difficult to analyse, due to damaging effects from the surrounding environment on the DNA and the high risk of exogenous contamination. Analysis of mitochondrial DNA is useful on degraded samples and in Paper III, mtDNA analysis of 700 years old skeletal remains is performed to investigate a maternal relationship. The quantity and quality of DNA are essential in forensic genetics. In Paper IV the efficiency of DNA isolation is investigated. Soaking skeletal remains in bleach is efficient for decontamination but result in a lower DNA yield, especially on pulverised skull samples. In conclusion, this thesis presents novel sequencing systems for accurate and fast analysis of STR loci that can be useful in evaluation of new loci and database assembly as well as the utility of mtDNA in forensic genetics.

forensic genetics

STRs

Y-chromosome

Pyrosequencing

mitochondrial DNA

skeletal remains

DNA extraction

MEDICINE

MEDICIN

Molecular systematics and biogeography of the Holarctic smelt family Osmeridae (Pisces)

Ilves, Katriina Larissa

05 1900

Biogeographers have long searched for common processes responsible for driving diversification in the Holarctic region. Although terrestrial flora and fauna have been well studied, much of the marine biogeographic work addresses patterns and processes occurring over a relatively recent timescale. A prerequisite to comparative biogeographic analysis requires well-resolved phylogenies of similarly distributed taxa that diverged over a similar timeframe. The overall aim of my Ph.D. thesis was to address fundamental questions in the systematics and biogeography of a family of Holarctic fish (Osmeridae) and place these results in a broad comparative biogeographic framework. With eight conflicting morphological hypotheses, the northern hemisphere smelts have long been the subjects of systematic disagreement. In addition to the uncertainty in the interrelationships within this family, the relationship of the Osmeridae to several other families remains unclear. Using DNA sequence data from three mitochondrial and three nuclear genes from multiple individuals per species, I reconstructed the phylogenetic relationships among the 6 genera and 15 osmerid species. Phylogenetic reconstruction and divergence dating yielded a well-resolved phylogeny of the osmerid genera and revealed several interesting evolutionary patterns within the family: (1) Hypomesus chishimaensis and H. nipponensis individuals are not reciprocally monophyletic, suggesting that they are conspecific and H. chishimaensis is a recently evolved freshwater ecotype that invaded the Kuril Islands following the last glaciation, (2) The trans-Pacific sister relationships in Hypomesus based on lateral line scale counts are not supported, implying that this phenotype evolved in parallel on each side of the North Pacific Ocean, (3) The Plecoglossidae are the Osmeridae sister group, (4) Over half of the characters from previous studies show evidence of parallel evolution; however, 27 traits reflect ancestral relationships, (5) Multiple divergences within the Osmeridae date to both the mid-Miocene cooling period and the Pliocene Bering Seaway opening, suggesting these events were important in the evolution of these fishes, and (6) Divergences in many marine taxa for which dated phylogenies are available are also correlated with these time periods. Future research should target additional Holarctic marine taxa for further comparative analysis.

molecular systematics

comparative biogeography

Osmeridae

smelt

mitochondrial DNA

nuclear DNA

phylogenetics

biogeographic reconstruction

Holarctic

trans-Pacific

Role of Snx9 in the Regulation of Mitochondrial Morphology

Magosi, Lerato E.

27 June 2012

Mitochondria are dynamic; they alter their shape through fission, fusion and budding of vesicles. Mitochondrial vesicles serve as a quality control mechanism enabling these organelles to rid themselves of damaged lipids and proteins. Dysregulation in mitochondrial dynamics and quality control have been linked to Parkinson’s Disease, making the identification of molecules requisite for these processes a priority. We identified the endocytic protein, Sorting nexin 9 (Snx9) through a genome wide siRNA screen for genes which substantially alter mitochondrial morphology and therefore are important for its maintenance. In this work, the role of Snx9 in mitochondrial morphology is examined. Ultrastructural imaging of mitochondria within cells silenced for Snx9 revealed unbudded vesicles along a hyperfused mitochondrial reticulum suggesting a role for Snx9 in the release of these vesicles. The vesicular profiles contained concentric membranous whorls enriched for neutral lipids. Localization studies suggest the Parkinson’s disease genes, Parkin and Vps35 localize to the unbudded profiles.

Mitochondria

Snx9

Whorls

Parkin

VPS35

Mitochondrial dynamics

Quality control

fusion

vesicles

Sorting nexin 9