Browsing by Author "Soto, Jorge A."

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    A molecular perspective for the development of antibodies against the human respiratory syncytial virus
    (2024) Loaiza, Ricardo A.; Ramirez, Robinson A.; Sepulveda-Alfaro, Javiera; Ramirez, Mario A.; Andrade, Catalina A.; Soto, Jorge A.; Gonzalez, Pablo A.; Bueno, Susan M.; Kalergis, Alexis M.
    The human respiratory syncytial virus (hRSV) is the leading etiologic agent causing respiratory infections in infants, children, older adults, and patients with comorbidities. Sixty-seven years have passed since the discovery of hRSV, and only a few successful mitigation or treatment tools have been developed against this virus. One of these is immunotherapy with monoclonal antibodies against structural proteins of the virus, such as Palivizumab, the first prophylactic approach approved by the Food and Drug Administration (FDA) of the USA. In this article, we discuss different strategies for the prevention and treatment of hRSV infection, focusing on the molecular mechanisms against each target that underly the rational design of antibodies against hRSV. At the same time, we describe the latest results regarding currently approved therapies against hRSV and the challenges associated with developing new candidates.
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    Involvement of trained immunity during autoimmune responses
    (2023) Mora, Valentina P.; Loaiza, Ricardo A.; Soto, Jorge A.; Bohmwald, Karen; Kalergis, Alexis M.
    Recently, it has been described that innate immune cells such as monocytes, macrophages, and natural killer cells can develop a non-specific immune response induced by different stimuli, including lipopolysaccharides, Mycobacterium bovis Bacillus Calmette-Gue & PRIME;rin, and oxidized low-density lipoprotein. This non-specific immune response has been named "trained immunity," whose mechanism is essential for host defense and vaccine response, promoting better infection control. However, limited information about trained immunity in other noninfectious diseases, such as autoimmune illness, has been reported. The complexity of autoimmune pathology arises from dysfunctions in the innate and adaptive immune systems, triggering different clinical outcomes depending on the disease. Nevertheless, T and B cell function dysregulation is the most common characteristic associated with autoimmunity by promoting the escape from central and peripheral tolerance. Despite the importance of adaptative immunity to autoimmune diseases, the innate immune system also plays a prominent and understudied role in these pathologies. Accordingly, epigenetic and metabolic changes associated with innate immune cells that undergo a trained process are possible new therapeutic targets for autoimmune diseases. Even so, trained immunity can be beneficial or harmful in autoimmune diseases depending on several factors associated with the stimuli. Here, we reviewed the role of trained immunity over the innate immune system and the possible role of these changes in common autoimmune diseases, including Systemic Lupus Erythematosus, Rheumatoid Arthritis, Multiple Sclerosis, and Type 1 Diabetes.