Medical Students' Perceptions Towards Online Teaching During the Covid-19 Pandemic: A Cross-Sectional Study from Saudi Arabia.

Background: The Covid-19 has made a huge impact on higher education. Online teaching and learning became essential to deliver educational activities in all areas including medical education. In this study, we aimed to investigate medical students' perceptions on the role of online teaching and learning in facilitating medical education.

Neuronal injury external to the retina rapidly activates retinal glia, followed by elevation of markers for cell cycle re-entry and death in retinal ganglion cells.

Retinal ganglion cells (RGCs) are neurons that relay visual signals from the retina to the brain. The RGC cell bodies reside in the retina and their fibers form the optic nerve. Full transection (axotomy) of the optic nerve is an extra-retinal injury model of RGC degeneration.

Chronic and acute models of retinal neurodegeneration TrkA activity are neuroprotective whereas p75NTR activity is neurotoxic through a paracrine mechanism.

In normal adult retinas, NGF receptor TrkA is expressed in retinal ganglion cells (RGC), whereas glia express p75(NTR). During retinal injury, endogenous NGF, TrkA, and p75(NTR) are up-regulated. Paradoxically, neither endogenous NGF nor exogenous administration of wild type NGF can protect degenerating RGCs, even when administered at high frequency.

Local inhibition of Rho signaling by cell-permeable recombinant protein BA-210 prevents secondary damage and promotes functional recovery following acute spinal cord injury.

Spinal cord injury (SCI) leads to robust Rho activation at the lesion site. Here, we demonstrate that BA-210, a cell-permeable fusion protein derived from C3 transferase, formulated in fibrin sealant and delivered topically onto the dura matter, diffuses into the spinal cord and inactivates Rho in a dose-dependent manner. Treatment with BA-210 in rats with thoracic spinal cord contusion increased tissue sparing around the lesion area and led to significant improvement of locomotor function.

Distribution of serotonin uptake and binding sites in the cnidarian Renilla koellikeri: an autoradiographic study.

Using [(3)H]-serotonin ([(3)H]-5-HT) as radiolabel and autoradiography, we have mapped the distribution of 5-HT uptake and binding sites in the sea pansy Renilla koellikeri in order to identify potential cellular pathways of 5-HT inactivation and to identify cellular substrates for the previously characterized 5-HT receptor involved in the modulation of peristaltic behavior. Uptake measured in fresh polyp tissues occurred via two processes: a high affinity (uptake(1)), clomipramine-sensitive process with a K(m) of 0.45 microM, and another of lower affinity (uptake(2)) with a Km of 11.

Vaccination stimulates retinal ganglion cell regeneration in the adult optic nerve.

We examined whether vaccination of adult rats with spinal cord homogenate (SCH) can promote regeneration of retinal ganglion cells (RGCs) after microcrush lesion of the optic nerve. Injured animals vaccinated with SCH showed axon growth into the optic nerve and such regeneration was not observed in animals vaccinated with liver homogenate (LH). Regeneration was not a consequence of neuroprotection since our vaccine did not protect RGCs from axotomy-induced cell death.

Inactivation of intracellular Rho to stimulate axon growth and regeneration.

Our studies indicate that the small GTPase Rho is an important intracellular target for promoting axon regrowth after injury. In tissue culture, inactivation of the Rho signaling pathway is effective in promoting neurite growth on growth inhibitory CNS substrates by two different methods: inactivation of Rho with C3 transferase, and inactivation by dominant negative mutation of Rho. In vivo, we have documented the regeneration of transfected axons after treatment with C3 in two different animals models, microcrush lesion of the adult rat optic nerve, and over-hemisection of adult mouse spinal cord.

Oligodendrocyte-myelin glycoprotein (OMgp) is an inhibitor of neurite outgrowth.

A protein fraction purified from bovine brain myelin, previously called arretin because of its ability to inhibit neurite outgrowth, has been identified as consisting predominantly of oligodendrocyte-myelin glycoprotein (OMgp). We show that it is a potent inhibitor of neurite outgrowth from rat cerebellar granule and hippocampal cells; from dorsal root ganglion explants in which growth cone collapse was observed; from rat retinal ganglion neurons; and from NG108 and PC12 cells. OMgp purified by a different procedure from both mouse and human myelin behaves identically in all bioassays tested.

Rho signaling pathway targeted to promote spinal cord repair.

The Rho signaling pathway regulates the cytoskeleton and motility and plays an important role in neuronal growth inhibition. Here we demonstrate that inactivation of Rho or its downstream target Rho-associated kinase (ROK) stimulated neurite growth in primary cells of cortical neurons plated on myelin or chondroitin sulfate proteoglycan substrates. Furthermore, treatment either with C3 transferase (C3) to inactivate Rho or with Y27632 to inhibit ROK was sufficient to stimulate axon regeneration and recovery of hindlimb function after spinal cord injury (SCI) in adult mice.

Inactivation of Rho signaling pathway promotes CNS axon regeneration.

Regeneration in the CNS is blocked by many different growth inhibitory proteins. To foster regeneration, we have investigated a strategy to block the neuronal response to growth inhibitory signals. Here, we report that injured axons regrow directly on complex inhibitory substrates when Rho GTPase is inactivated.