Shilpa Chatlani scite author profile

Many primary vestibular afferents form large cup-shaped postsynaptic terminals (calyces) that envelope the basolateral surfaces of type I hair cells. The calyceal terminals both respond to glutamate released from ribbon synapses in the type I cells and initiate spikes that propagate to the afferent’s central terminals in the brainstem. The combination of synaptic and spike initiation functions in these unique sensory endings distinguishes them from the axonal nodes of central neurons and peripheral nerves, such as the sciatic nerve, which have provided most of our information about nodal specializations. We show that rat vestibular calyces express an unusual mix of voltage-gated Na and K channels and scaffolding, cell adhesion, and extracellular matrix proteins, which may hold the ion channels in place. Protein expression patterns form several microdomains within the calyx membrane: a synaptic domain facing the hair cell, the heminode abutting the first myelinated internode, and one or two intermediate domains. Differences in the expression and localization of proteins between afferent types and zones may contribute to known variations in afferent physiology.

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Quantal and Nonquantal Transmission in Calyx-Bearing Fibers of the Turtle Posterior Crista

Holt

Chatlani

Lysakowski³

et al. 2007

Journal of Neurophysiology

107

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Intracellular recordings were made from nerve fibers in the posterior ampullary nerve near the neuroepithelium. Calyx-bearing afferents were identified by their distinctive efferent-mediated responses. Such fibers receive inputs from both type I and type II hair cells. Type II inputs are made by synapses on the outer face of the calyx ending and on the boutons of dimorphic fibers. Quantal activity, consisting of brief mEPSPs, is reduced by lowering the external concentration of Ca 2+ and blocked by the AMPA-receptor antagonist CNQX. Poisson statistics govern the timing of mEPSPs, which occur at high rates (250-2,500/s) in the absence of mechanical stimulation. Excitation produced by canal-duct indentation can increase mEPSP rates to nearly 5,000/s. As the rate increases, mEPSPs can change from a monophasic depolarization to a biphasic depolarizinghyperpolarizing sequence, both of whose components are blocked by CNQX. Blockers of voltagegated currents affect mEPSP size, which is decreased by TTX and is increased by linopirdine. mEPSP size decreases several fold after impalement. The size decrease, although it may be triggered by the depolarization occurring during impalement, persists even at hyperpolarized membrane potentials. Nonquantal transmission is indicated by shot-noise calculations and by the presence of voltage modulations after quantal activity is abolished pharmacologically. An ultrastructural study shows that inner-face inputs from type I hair cells outnumber outer-face inputs from type II hair cells by an almost 6:1 ratio.

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Estimating the prevalence of Niemann-Pick disease type C (NPC) in the United States

Burton

Ellis²,

Orr³

et al. 2021

Molecular Genetics and Metabolism

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Faculty Opinions recommendation of Prestin-driven cochlear amplification is not limited by the outer hair cell membrane time constant.

Fuchs

Chatlani

2011

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Shilpa Chatlani

Molecular Microdomains in a Sensory Terminal, the Vestibular Calyx Ending

Quantal and Nonquantal Transmission in Calyx-Bearing Fibers of the Turtle Posterior Crista

Estimating the prevalence of Niemann-Pick disease type C (NPC) in the United States

Faculty Opinions recommendation of Prestin-driven cochlear amplification is not limited by the outer hair cell membrane time constant.

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