Browsing by Author "Iloglu, Zeynep"

Alzheimer's disease (AD) is a degenerative brain disorder that exhibits deterioration as one gets older. Although much remains to be learned about the pathophysiology of AD, there is strong evidence links amyloid beta (Aβ) plaques, which are responsible for cognitive impairment, to GABAergic interneurons. Model systems are of prime importance for adequately studying the pathophysiology of this disorder; however, existing in vitro models have limitations in producing patient-specific cells. The development of induced pluripotent stem cell (iPSC) technology has provided a novel opportunity for the effective production of disease-relevant cell types while preserving the molecular traits of the patient. In this thesis, the differentiation protocol established by Nicholas et al. (2013) was used to promote the development of interneurons derived from iPSCs. To enhance the efficiency of differentiation, the protocol was modified with the use of small molecules combined in different ways. The end result of the differentiation was characterized using immunocytochemistry (ICC) and reverse transcription-quantitative polymerase chain reaction (RT-qPCR). The combination of molecules that produced greater efficiency in differentiation was selected, and the optimized protocol was carried out with iPSCs derived from an AD patient harbouring the APP Swedish mutation. The differentiation of cortical interneurons, demonstrated by the expression of pan-neuronal and specific GABAergic neuronal markers, signifies the successful generation of differentiated interneurons in the context of AD. AD iPSCs upregulated several markers related to AD pathology, such as APP and BACE1. However, the cell lines tolerated the small molecules differently, and thus, the protocol needs more optimization in the future. In summary, iPSC-based differentiation protocols are capable of producing disease-specific cell types that would be helpful in developing accurate AD models for revealing the mechanisms of Aβ pathology.