Publications by authors named "Christina Besada"
The mesolimbic dopamine system is a crucial component of reward and reinforcement processing, including the psychotropic effects of drugs of abuse such as cocaine. Drugs of abuse can activate intracellular signaling cascades that engender long-term molecular changes to brain reward circuitry, which can promote further drug use. However, gaps remain about how the activity of these signaling pathways, such as ERK1/2 signaling, can affect cocaine-induced neurochemical plasticity and cocaine-associated behaviors specifically within dopaminergic cells.
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- Phenylalanine ammonia lyase (PAL) converts phenylalanine to transcinnamic acid (TCA), but TCA inhibits PAL's activity over time, though adding bovine serum albumin (BSA) can prevent this inhibition by binding TCA.
- In pre-formulation studies, PAL shows optimal activity at pH 8.5, which is necessary to retain its function in the gastrointestinal tract (g.i.t), and a specific buffer with BSA can maintain this activity even under simulated digestive conditions.
- The research revealed that PAL cannot metabolize phenylalanine dipeptides, shedding light on previous low efficacy of PAL in treating phenylketonuria and informing the design of a more effective PAL microcaps