Publications by authors named "F Rodriguez-Jimenez"
Associative learning enables the adaptive adjustment of behavioral decisions based on acquired, predicted outcomes. The valence of what is learned is influenced not only by the learned stimuli and their temporal relations, but also by prior experiences and internal states. In this study, we used the fruit fly to demonstrate that neuronal circuits involved in associative olfactory learning undergo restructuring during extended periods of low-caloric food intake.
View Article and Find Full Text PDFNeuromodulatory signaling via G protein-coupled receptors (GPCRs) plays a pivotal role in regulating neural network function and animal behavior. The recent development of optogenetic tools to induce G protein-mediated signaling provides the promise of acute and cell type-specific manipulation of neuromodulatory signals. However, designing and deploying optogenetically functionalized GPCRs (optoXRs) with accurate specificity and activity to mimic endogenous signaling in vivo remains challenging.
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- * The activation of these cells involves specific signaling pathways that encourage their self-renewal, growth, and specialization, crucial for harnessing the spinal cord's regenerative abilities.
- * By studying the roles of various cellular components, like receptors and transcription factors, researchers aim to uncover how to effectively stimulate ependymal cells for better regenerative therapies after SCI.
Article Synopsis
- Synaptic dysfunction significantly contributes to Alzheimer's disease (AD) alongside other pathological features like β-amyloid plaques and hyperphosphorylated Tau protein, yet the mechanisms linking these aspects to neuron loss remain unclear.
- The lack of patient-derived tissues and effective animal models has hindered advances in treatment research, but human induced pluripotent stem cell (hiPSC) technology now allows for the creation of patient-specific stem cells that can generate AD-relevant cell types.
- This review focuses on the achievements and challenges of using hiPSC models to study neuron and synapse loss in AD, aiming to uncover mechanisms of synaptic dysfunction and identify early markers of neural degeneration.
Hereditary retinal dystrophies (HRD) represent a significant cause of blindness, affecting mostly retinal pigment epithelium (RPE) and photoreceptors (PRs), and currently suffer from a lack of effective treatments. Highly specialized RPE and PR cells interact mutually in the functional retina, therefore primary HRD affecting one cell type leading to a secondary HRD in the other cells. Phagocytosis is one of the primary functions of the RPE and studies have discovered that mutations in the phagocytosis-associated gene Mer tyrosine kinase receptor () lead to primary RPE dystrophy.
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