Naučni istraživač, asistent i doktorant na Odsjeku za Biohemiju Receptora Ruhr Univerziteta u Njemačkoj
Polje Istraživanja: Biochemistry (Biology) Neuroscience
Bachelor iz oblasti Genetike i bioinžinjeringa završila sam na Internacionalnom BURCH Univerzitetu u Sarajevu. Nakon toga, školovanje sam nastavila na Ruhr Univerzitetu u Bochum-u (Njemačka) gdje na odsjeku za Biohemiju 2016-te godine sam stekla zvanje magistra nauka. Tokom druge godine magistarskog, moje interesovanje se usmjerilo na istraživanje oblasti matičnih ćelija te sam svoj magistarski radila na Univerzitetskoj Klinici u Essen-u (Njemačka). Tema magistarskog rada je bila upotreba vanćelijskih vezikli mezenkimalnih matičnih celija u terapeutske svrhe. Rezultati magistarskog rada su prezentovani na dvije nacionalne konferencije u mreži istrazivanja matičnih ćelija u Njemačkoj. Takođe, bila sam koautor rada objavljenog iz te oblasti, nagrađenog 2018-te godine od strane „International Journal of Molecular Science” kao jedan od najbolja tri rada. Nakon dvije godine trudničkog i roditeljskog odsustva, nastavila sam sa radom kao naučni istrazivač, asistent i doktorant na odsjeku za Biohemiju Receptora Ruhr Univerziteta. Rezultate doktorskog rada prestavila sam na četiri internacionalne konferencije među kojima su najveća evropska (FENS) i svjetska (SfN) konferencija neuroznanosti. Trenutno radim istraživanja u oblasti receptora glutamata koji su bitni za neuronsku komunikaciju, procese formiranja memorije i učenja te su povezani sa mnogim neurodegenerativnim bolestima.
Tetraspanins (Tspans) comprise a membrane protein family structurally defined by four transmembrane domains and intracellular N and C termini that is found in almost all cell types and tissues of eukaryotes. Moreover, they are involved in a bewildering multitude of diverse biological processes such as cell adhesion, motility, protein trafficking, signaling, proliferation, and regulation of the immune system. Beside their physiological roles, they are linked to many pathophysiological phenomena, including tumor progression regulation, HIV-1 replication, diabetes, and hepatitis. Tetraspanins are involved in the formation of extensive protein networks, through interactions not only with themselves but also with numerous other specific proteins, including regulatory proteins in the central nervous system (CNS). Interestingly, recent studies showed that Tspan7 impacts dendritic spine formation, glutamatergic synaptic transmission and plasticity, and that Tspan6 is correlated with epilepsy and intellectual disability (formerly known as mental retardation), highlighting the importance of particular tetraspanins and their involvement in critical processes in the CNS. In this review, we summarize the current knowledge of tetraspanin functions in the brain, with a particular focus on their impact on glutamatergic neurotransmission. In addition, we compare available resolved structures of tetraspanin family members to those of auxiliary proteins of glutamate receptors that are known for their modulatory effects.
Extracellular vesicles (EVs), such as exosomes and microvesicles, have been identified as mediators of a newly-discovered intercellular communication system. They are essential signaling mediators in various physiological and pathophysiological processes. Depending on their origin, they fulfill different functions. EVs of mesenchymal stem/stromal cells (MSCs) have been found to promote comparable therapeutic activities as MSCs themselves. In a variety of in vivo models, it has been observed that they suppress pro-inflammatory processes and reduce oxidative stress and fibrosis. By switching pro-inflammatory into tolerogenic immune responses, MSC-EVs very likely promote tissue regeneration by creating a pro-regenerative environment allowing endogenous stem and progenitor cells to successfully repair affected tissues. Accordingly, MSC-EVs provide a novel, very promising therapeutic agent, which has already been successfully applied to humans. However, the MSC-EV production process has not been standardized, yet. Indeed, a collection of different protocols has been used for the MSC-EV production, characterization and application. By focusing on kidney, heart, liver and brain injuries, we have reviewed the major outcomes of published MSC-EV in vivo studies.
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