Patricia Salgado Pirbhoy scite author profile

Fragile X syndrome (FXS) is a leading genetic cause of autism with symptoms that include sensory processing deficits. In both humans with FXS and a mouse model [Fmr1 knockout (KO) mouse], electroencephalographic (EEG) recordings show enhanced resting state gamma power and reduced sound-evoked gamma synchrony. We previously showed that elevated levels of matrix metalloproteinase-9 (MMP-9) may contribute to these phenotypes by affecting perineuronal nets (PNNs) around parvalbumin (PV) interneurons in the auditory cortex of Fmr1 KO mice. However, how different cell types within local cortical circuits contribute to these deficits is not known. Here, we examined whether Fmr1 deletion in forebrain excitatory neurons affects neural oscillations, MMP-9 activity, and PV/PNN expression in the auditory cortex. We found that cortical MMP-9 gelatinase activity, mTOR/Akt phosphorylation, and resting EEG gamma power were enhanced in CreNex1/Fmr1Flox/y conditional KO (cKO) mice, whereas the density of PV/PNN cells was reduced. The CreNex1/Fmr1Flox/y cKO mice also show increased locomotor activity, but not the anxiety-like behaviors. These results indicate that fragile X mental retardation protein changes in excitatory neurons in the cortex are sufficient to elicit cellular, electrophysiological, and behavioral phenotypes in Fmr1 KO mice. More broadly, these results indicate that local cortical circuit abnormalities contribute to sensory processing deficits in autism spectrum disorders.

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Localization and local translation of Arc/Arg3.1 mRNA at synapses: some observations and paradoxes

Steward

Farris

Pirbhoy

et al. 2015

Front. Mol. Neurosci.

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Arc is a unique immediate early gene whose expression is induced as synapses are being modified during learning. The uniqueness comes from the fact that newly synthesized Arc mRNA is rapidly transported throughout dendrites where it localizes near synapses that were recently activated. Here, we summarize aspects of Arc mRNA translation in dendrites in vivo, focusing especially on features of its expression that are paradoxical or that donot fit in with current models of how Arc protein operates. Findings from in vivo studies that donot quite fit include: (1) Following induction of LTP in vivo, Arc mRNA and protein localize near active synapses, but are also distributed throughout dendrites. In contrast, Arc mRNA localizes selectively near active synapses when stimulation is continued as Arc mRNA is transported into dendrites; (2) Strong induction of Arc expression as a result of a seizure does not lead to a rundown of synaptic efficacy in vivo as would be predicted by the hypothesis that high levels of Arc cause glutamate receptor endocytosis and LTD. (3) Arc protein is synthesized in the perinuclear cytoplasm rapidly after transcriptional activation, indicating that at least a pool of Arc mRNA is not translationally repressed to allow for dendritic delivery; (4) Increases in Arc mRNA in dendrites are not paralleled by increases in levels of exon junction complex (EJC) proteins. These results of studies of mRNA trafficking in neurons in vivo provide a new perspective on the possible roles of Arc in activity-dependent synaptic modifications.

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Acute pharmacological inhibition of matrix metalloproteinase‐9 activity during development restores perineuronal net formation and normalizes auditory processing in Fmr1 KO mice

Pirbhoy

Rais

Lovelace

et al. 2020

Journal of Neurochemistry

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Individuals with Fragile X Syndrome (FXS) and autism spectrum disorder (ASD) exhibit cognitive impairments, social deficits, increased anxiety, and sensory hyperexcitability. 55 Previously, we showed that elevated levels of matrix metalloproteinase-9 (MMP-9) may 56 contribute to abnormal development of parvalbumin (PV) interneurons and perineuronal nets 57 (PNNs) in the developing auditory cortex (AC) of Fmr1 knockout (KO) mice, which likely 58 underlie auditory hypersensitivity. Thus, MMP-9 may serve as a potential target for treatment of 59 auditory hypersensitivity in FXS. Here, we used the MMP-2/9 inhibitor, SB-3CT, to 60 pharmacologically inhibit MMP-9 activity during a specific developmental period and to test if 61 inhibition of MMP-9 activity reverses neural oscillation deficits and behavioral impairments by 62 enhancing PNN formation around PV cells in Fmr1 KO mice. Electroencephalography (EEG) 63 was used to measure resting state and sound-evoked electrocortical activity in auditory and 64 frontal cortices of postnatal day (P)22-23 male mice before and one-day after treatment with SB-65 3CT (25 mg/kg) or vehicle. At P27-28, animal behaviors were tested to measure the effects of 66 the treatment on anxiety and hyperactivity. Results show that acute inhibition of MMP-9 activity 67 improved evoked synchronization to auditory stimuli, and ameliorated mouse behavioral deficits.

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Synaptic activation of ribosomal protein S6 phosphorylation occurs locally in activated dendritic domains

2016

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Previous studies have shown that induction of long-term potentiation (LTP) induces phosphorylation of ribosomal protein S6 (rpS6) in postsynaptic neurons, but the functional significance of rpS6 phosphorylation is poorly understood. Here, we show that synaptic stimulation that induces perforant path LTP triggers phosphorylation of rpS6 (p-rpS6) locally near active synapses. Using antibodies specific for phosphorylation at different sites (ser235/236 versus ser240/244), we show that strong synaptic activation led to dramatic increases in immunostaining throughout postsynaptic neurons with selectively higher staining for p-ser235/236 in the activated dendritic lamina. Following LTP induction, phosphorylation at ser235/ 236 was detectable by 5 min, peaked at 30 min, and was maintained for hours. Phosphorylation at both sites was completely blocked by local infusion of the NMDA receptor antagonist, APV. Despite robust induction of p-rpS6 following high frequency stimulation, assessment of protein synthesis by autoradiography revealed no detectable increases. Exploration of a novel environment led to increases in the number of p-rpS6-positive neurons throughout the forebrain in a pattern reminiscent of immediate early gene induction and many individual neurons that were p-rpS6-positive coexpressed Arc protein.Our results constrain hypotheses about the possible role of rpS6 phosphorylation in regulating postsynaptic protein synthesis during induction of synaptic plasticity.

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