Open Access. Powered by Scholars. Published by Universities.®
Articles 1 - 2 of 2
Full-Text Articles in Medicine and Health Sciences
Shared Resistance To Aging And Als In Neuromuscular Junctions Of Specific Muscles, Gregorio Valdez, Juan C. Tapia, Jeff W. Lichtman, Michael A. Fox, Joshua R. Sanes
Shared Resistance To Aging And Als In Neuromuscular Junctions Of Specific Muscles, Gregorio Valdez, Juan C. Tapia, Jeff W. Lichtman, Michael A. Fox, Joshua R. Sanes
Anatomy and Neurobiology Publications
Normal aging and neurodegenerative diseases both lead to structural and functional alterations in synapses. Comparison of synapses that are generally similar but respond differently to insults could provide the basis for discovering mechanisms that underlie susceptibility or resistance to damage. Here, we analyzed skeletal neuromuscular junctions (NMJs) in 16 mouse muscles to seek such differences. We find that muscles respond in one of three ways to aging. In some, including most limb and trunk muscles, age-related alterations to NMJs are progressive and extensive during the second postnatal year. NMJs in other muscles, such as extraocular muscles, are strikingly resistant to …
Optogenetic Stimulation Of The Corticothalamic Pathway Affects Relay Cells And Gabaergic Neurons Differently In The Mouse Visual Thalamus, Chris W. D. Jurgens, Karen A. Bell, A. Rory Mcquiston, William Guido
Optogenetic Stimulation Of The Corticothalamic Pathway Affects Relay Cells And Gabaergic Neurons Differently In The Mouse Visual Thalamus, Chris W. D. Jurgens, Karen A. Bell, A. Rory Mcquiston, William Guido
Anatomy and Neurobiology Publications
The dorsal lateral geniculate nucleus (dLGN) serves as the primary conduit of retinal information to visual cortex. In addition to retinal input, dLGN receives a large feedback projection from layer VI of visual cortex. Such input modulates thalamic signal transmission in different ways that range from gain control to synchronizing network activity in a stimulus-specific manner. However, the mechanisms underlying such modulation have been difficult to study, in part because of the complex circuitry and diverse cell types this pathway innervates. To address this and overcome some of the technical limitations inherent in studying the corticothalamic (CT) pathway, we adopted …