Parkinson s disease PD is the second most common neurodegenerative disorder affecting approximately % of the population over age . PD is widely accepted as a multifactorial disease with both genetic and environmental contributions. Despite extensive research conducted in the area the precise etiological factors responsible remain elusive. In about % Parkinsonism is considered to have a sporadic component. There are currently no established curative, preventative, or diseasemodifying interventions, stemming from a poor understanding of the molecular mechanisms of pathogenesis. Here lies the importance of animal models. Pharmacological insults cause Parkinsonian like phenotypes in Drosophila, thereby modelling sporadic PD. The pesticides paraquat and rotenone induced oxidative damage causing cluster specific D" neuron loss together with motor deficits. Studies in fly PD model have deciphered that signaling pathways such as phosphatidylinositolkinase PI K/"kt and target of rapamycin TOR , c-Jun N-terminal kinase JNK have been defective. Further, these studies have demonstrated that fruit fly can be a potential model to screen chemical compounds for their neuroprotective efficacy. This chapter overviews current knowledge on the pathophysiology of sporadic PD employing Drosophila model and discusses the future perspectives. Further we emphasize the importance of performing genome wide screens in fly model, which
The ongoing COVID-19 pandemic originating from Wuhan, China is causing major fatalities across the world. Viral pneumonia is commonly observed in COVID-19 pandemic. The number of deaths caused by viral pneumonia is mainly due to secondary bacterial or fungal infection. The immunopathology of SARS-CoV-2 viral pneumonia is poorly understood with reference to human clinical data collected from patients infected by virus and secondary bacterial or fungal infection occurring simultaneously. The co-infection inside the lungs caused by pneumonia has direct impact on the changing lymphocyte and neutrophil counts. Understanding the attribution of these two immunological cells triggered by cytokines level change is of great importance to identify the progression of pneumonia from non-severe to severe state in hospitalized patients. This review elaborates the cytokines imbalance observed in SARS-CoV-1 (2003 epidemic), SARS-CoV-2 (2019 pandemic) viral pneumonia and community acquired pneumonia (CAP), respectively, in patients to determine the potential reason of co-infection. In this review the epidemiology, virology, clinical symptoms, and immunopathology of SARS-CoV-2 pneumonia are narrated. The immune activation during SARS-CoV-1 pneumonia, bacterial, and fungal pneumonia is discussed. Here it is further analyzed with the available literatures to predict the potential internal medicines, prognosis and monitoring suggesting better treatment strategy for SARS-CoV-2 pneumonia patients.
Drosophila melanogaster is a widely used, dynamic model organism to study various pathogenic diseases observed ubiquitously in the human population. Drosophila, at present, is extensively used to conduct preclinical studies besides its counterpart rodents. The epidemic and pandemic diseases are discussed in this review to demonstrate Drosophila melanogaster as a key model. Epidemic and pandemic diseases are still claiming more than 5 million lives every year, and these diseases were well studied in flies. Currently there is no cure for the disease like HIV; the bacterial and fungal infections usually seen in HIV/AIDS patients could be demonstrated elaborately in Drosophila melanogaster. Diseases like myocardial infractions and cancer causing viral infection are long term effects of ART (antiretroviral therapy) that could be experimented in flies. Stable Drosophila S2 cell line, Transgenic flies, transfusion of bacteria and fungi could be implemented to study several infectious diseases and for vaccine development. The latest trends in understanding pathogenic diseases and its potential biochemical markers in flies are discussed in this review to utilize the fruit flies as a functional tool and to explore further it in drug development. The advantages and disadvantages of the fly as a model of infection are discussed along with the epidemiology and the cellular pathophysiology
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