Neuronal differentiation and epithelial integrity: the role of Drosophila Short stop

The nervous system is the most complex organ in animals and the ordered interconnection of neurons is an essential prerequisite for normal behaviour. Neuronal connectivity requires controlled neuronal growth and differentiation. Neuronal growth essentially depends on the actin and microtubule cytoskeleton, and it has become increasingly clear, that crosslinking of these cytoskeletal fractions is a crucial regulatory process. The Drosophila Spectraplakin family member Short stop (Shot) is such a crosslinker and is crucial for several aspects of neuronal growth. Shot comprises various domains: An actin binding domain, a plakin-like domain, a rod domain, calcium responsive EF-hand motifs, a microtubule binding Gas2 domain, a GSR motif and a C-terminal EB1aff domain. Amongst other phenotypes, shot mutant animals exhibit severely reduced dendrites and neuromuscular junctions, the subcellular compartmentalisation of the transmembrane protein Fasciclin2 is affected, but it is also crucially required in other tissues, for example for the integrity of tendon cells, specialised epidermal cells which anchor muscles to the body wall. Despite these striking phenotypes, Shot function is little understood, and especially we do not understand how it can carry out functions as diverse as those described above. To bridge this gap, I capitalised on the genetic possibilities of the model system Drosophila melanogaster and carried out a structure-function analysis in different neurodevelopmental contexts and in tendon cells. To this end, I used targeted gene expression of existing and newly generated Shot deletion constructs in Drosophila embryos and larvae, analyses of different shot mutant alleles, and transfection of Shot constructs into S2 cells or cultured fibroblasts. My analyses reveal that a part of the Shot C-terminus is not essential in the nervous system but in tendon cells where it stabilises microtubules. The precise molecular mechanism underlying this activity is not yet elucidated but, based on the findings presented here, I have developed three alternative testable hypothesis. Thus, either binding of the microtubule plus-end tracking molecule EB1 through an EB1aff domain, microtubulebundling through a GSR rich motif or a combination of both may explain a context-specific requirement of the Shot C-terminus for tendon cell integrity. Furthermore, I find that the calcium binding EF-hand motif in Shot is exclusively required for a subset of neuronal functions of Shot but not in the epidermal tendon cells. These findings pave the way for complementary studies studying the impact of [Ca2+] on Shot function. Besides these differential requirements of Shot domains I find, that most Shot domains are required in the nervous system and tendon cells alike. Thus the microtubule Gas2 domain shows no context specific requirements and is equally essential in all analysed cellular contexts. Furthermore, I could demonstrate a partial requirement of the large spectrin-repeat rod domain of Shot in neuronal and epidermal contexts. I demonstrate that this domain is partially required in processes involving growth and/or tissue stability but dispensable for cellular processes where no mechanical stress resistance is required. In addition, I demonstrate that the CH1 domain a part of the N-terminal actin binding domain of Shot is only partially required for all analysed contexts. Thus, I conclude that Shot domains are functioning different in various cellular environments. In addition my study lays the base for future projects, such as the elucidation of Shot function in growth cones. Given the high degree of conservation between Shot and its mammalian orthologues MACF1/ACF7 and BPAG1, I believe that the findings presented in this study will contribute to the general understanding of spectraplakins across species borders.

Proteomics-driven approach for the detection of breast cancer biomarkers

Breast cancer (BC) is the most often diagnosed cancer entity of women worldwide. No molecular biomarkers are usable in the clinical routine for the early detection of BC. Proteomics is one of the dynamic tools for the successful examination of changes on the protein level. In this thesis different proteomics-based investigations were performed for the detection of protein and autoantibody biomarkers in serum samples of BC and healthy (CTRL) subjects. First, protein levels of candidates from previous profiling studies were investigated via antibody-microarray platform. Three proteins were found in distinct levels in both groups: secretoglobin family 1D member 1, alpha-2 macroglobulin and inter-alpha-trypsin inhibitor heavy chain family member 4. The second part was dedicated to the de novo exploration of potentially immunogenic tumor antigens (TA’s) with immunoprecipitation and Western immunoblotting followed by identification over mass spectrometry. Autoantibody levels were verified in individual serum profiling via the protein microarray platform. Two autoantibody’ cohorts (anti-Histone 2B and anti-Recoverin) were found in different levels in both groups. The findings of this PhD thesis underline deregulated serum protein and autoantibody levels in the presence of BC. Further investigations are needed to confirm the results in an independent study population.

Der Einfluss der löslichen Spaltprodukte des Amyloid-beta-Vorläuferproteins auf die Proteinhomöostase

Die Alzheimer’sche Erkrankung (AD) ist die am häufigsten vorkommende Form der Demenz. Die Spaltung des APP scheint eine große Rolle in der Pathologie der Erkrankung zu spielen. APP kann auf zwei Wegen prozessiert werden. Dem amyloidogenen Weg, bei dem neben einem löslichen extrazellulären Fragment (sAPPβ) und der APP Intrazellulären Domäne (AICD) auch Aβ entsteht. Auf dem nicht-amyloidogenen Weg entsteht sAPPα, p3 und die AICD. Dem sAPPα werden neuroprotektiv Eigenschaften zugeschrieben. rnEs konnte gezeigt werden, dass sAPPα in jungen IMR90 Zellen, den durch proteasomalen Stress ausgelösten Anstieg der Bag3 und Hsp70 Proteinlevel senkt. Gleichzeitig konnte gezeigt werden, dass sAPPα die Zellviabilität nach proteasomalen Stress erhöht und weniger Aggresomen gebildet werden. Die Analyse der proteasomalen Aktivität zeigte, dass sAPPα die proteasomale Aktivität gestresster junger Zellen erhöhen kann. In alten IMR90 Zellen konnte keine Beeinflussung der Autophagie und der proteasomalen Aktivität festgestellt werden. Das ist ein Anhaltspunkt dafür, dass im Alter das Proteasom zu stark geschädigt ist, um durch sAPPα aktiviert zu werden. Das bei der amyloidogenen Prozessierung von APP entstehende sAPPβ zeigte eine ähnliche protektive Eigenschaft. rnInsgesamt konnte ein protektiver Einfluss von sAPPα und sAPPβ unter proteotoxischen Bedingungen in jungen und klonalen Zellen gezeigt werden, wodurch die Zellviabilität verbessert wird. rn

Chlamydiae host cell interaction and immune evasion strategies

Chlamydiae are obligate intracellular bacteria with a strong global prevalence. They cause infections of the eye, lung and the genital tract and can either replicate in inclusion compartments or persist inside their host cell. In this thesis we focused on two aspects of chlamydiae infection. We hypothesize that transcription factor AP-1 is crucial for a replicative chlamydiae infection in epithelial cells. In addition we suggest that chlamydiae hide inside apoptotic blebs for a silent uptake by macrophages as immune evasion strategy.rnFocusing on AP-1, we could demonstrate that during Chlamydia pneumoniae infection, protein expression and phosphorylation of the AP-1 family member c-Jun significantly increased in a time and dose dependent manner. A siRNA knockdown of c-Jun in HEp-2 cells reduced chlamydial load, resulting in smaller inclusions and a significant lower chlamydial recovery. Furthermore, inhibition of the c-Jun containing AP-1 complexes, using Tanshinone IIA, changed the replicative infection into a persistent phenotype, characterized by (i) smaller, aberrant inclusions, (ii) a strong decrease in chlamydial load, as well as by (iii) its reversibility after removal of Tanshinone IIA. As chlamydiae are energy parasites, we investigated whether Tanshinone IIA interferes with energy/metabolism related processes. rnA role for autophagy or gene expression of glut-1 and c-jun in persistence could not be determined. However we could demonstrate Tanshinone IIA treatment to be accompanied by a significant decrease of ATP levels, probably causing a chlamydiae persistent phenotype.rnRegarding the chlamydial interaction with human primary cells we characterized infection of different chlamydiae species in either pro-inflammatory (type I) or anti-inflammatory (type II) human monocyte derived macrophages (hMDM). We found both phenotypes to be susceptible to chlamydiae infection. Furthermore, we observed that upon Chlamydia trachomatis and GFP-expressing Chlamydia trachomatis infection more hMDM type II were infected. However the chlamydial load was higher in hMDM type I and correspondingly, more replicative-like inclusions were found in this phenotype. Next, we focused on the chlamydial transfer using a combination of high speed live cell imaging and GFP-expressing Chlamydia trachomatis for optimal visualization. Thereby, we could successfully visualize the formation of apoptotic, chlamydiae-containing blebs and the interaction of hMDM with these blebs. Moreover, we observed the development of a replicative infection in hMDM. rnIn conclusion, we demonstrated a crucial role of AP-1 for C. pneumoniae development and preliminary time lapse data suggest that chlamydiae can be transferred to hMDMs via apoptotic blebs. In all, these data may contribute to a better understanding of chlamydial infection processes in humans.rn