Abstract
Depression is the most common psychiatric comorbidity of epilepsy. However, the molecular pathways underlying this association remain unclear. The NMDA receptor (NMDAR) may play a role in this association, as its downstream signaling has been shown to undergo long-term changes following excitotoxic neuronal damage. To study this pathway, we used an animal model of fluoxetine-resistant epilepsy-associated depression (EAD). We determined the molecular changes associated with the development of depressive symptoms and examined their response to various combinations of fluoxetine and a selective neuronal nitric oxide synthase inhibitor, 7-nitroindazole (NI). Depressive symptoms were determined using the forced swim test. Furthermore, expression and phosphorylation levels of markers in the ERK/CREB/ELK1/BDNF/cFOS pathway were measured to determine the molecular changes associated with these symptoms. Finally, oxidative stress markers were measured to more clearly determine the individual contributions of each treatment. While chronic fluoxetine (Flxc) and NI were ineffective alone, their combination had a statistically significant synergistic effect in reducing depressive symptoms. The development of depressive symptoms in epileptic rats was associated with the downregulation of ERK2 expression and ELK1 and CREB phosphorylation. These changes were exactly reversed upon Flxc + NI treatment, which led to increased BDNF and cFOS expression as well. Interestingly, ERK1 did not seem to play a role in these experiments. NI seemed to have augmented Flxc’s antidepressant activity by reducing oxidative stress. Our findings suggest NMDAR signaling alterations are a major contributor to EAD development and a potential target for treating conditions associated with underlying excitotoxic neuronal damage.
Highlights
Epilepsy is associated with a variety of neurological comorbidities, the most common of which is depression [17]
Comparison of the histological characteristics of post‐status epilepticus (SE) and Sham hippocampi To assess the neuronal damage caused by our modified model of epilepsy-associated depression (EAD), we assessed cell count and apoptosis rates in microscopic slides of the rat hippocampi based on NeuN immunoreactivity and TUNEL staining, respectively
Clinical characterization of selective neuronal nitric oxide synthase (nNOS) inhibitors and NMDA receptor (NMDAR)/nNOS uncouplers could unlock their potential as powerful treatments for conditions in which excitotoxicity plays an important pathophysiological role, such as status epilepticus, traumatic brain injury, and cerebral ischemia [63]
Summary
Epilepsy is associated with a variety of neurological comorbidities, the most common of which is depression [17]. Depression in epilepsy remains underdiagnosed and undertreated, possibly due to fears. Sadeghi et al acta neuropathol commun (2021) 9:53. In this model, LiCl-pilocarpine induced status epilepticus (SE) is used to prime epileptogenesis in rats. It has been shown that depressive-like symptoms develop following epileptogenesis and that these symptoms are resistant to fluoxetine treatment [31]. Epileptogenesis clearly precedes development of depression in this model. Identification of the pathways responsible for this pattern may shed light on the common pathophysiological elements between epilepsy and depression. The characteristic development of fluoxetine-resistant EAD in the original model remained unchanged
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