Basal Forebrain Impairment: Understanding the Mnemonic Function of the Septal Region Translates in Therapeutic Advances

Tsanov, Marian

doi:10.3389/fncir.2022.916499

Cited by 6 publications

(7 citation statements)

References 264 publications

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Section: Discussionmentioning

confidence: 99%

“…33,34 Our results in the TUG test (Figure 3B) and ISLT-Recognition (Figure 4), showing the most prominent treatment effect differences between plasma ptau181 strata, are instructive in that regard because both measures would be expected to be influenced by the cholinergic input from the medial septal nucleus of the basal forebrain to the hippocampus. 35 Recently, the results similar to ours with respect to the association of a plasma biomarker of AD copathology on treatment response to a novel agent were reported 36 with the PDE9 inhibitor, irsenontrine; in a 12-week, placebo-controlled phase 2 study in DLB, "amyloid-negative" patients (evidenced by a high plasma Aβ42/40 ratio) demonstrated a trend (p = 0.053) toward improvement in cognition, measured using the Montreal Cognitive Assessment, whereas no such trends were evident in "amyloid-positive" patients. Together with our results, these findings point to the potential utility of a plasma biomarker for underlying pathology to decrease patient heterogeneity either as a covariate or by excluding patients with a concomitant, and potentially confounding, pathology.…”

Section: Discussionmentioning

confidence: 99%

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Association of Plasma Phosphorylated Tau With the Response to Neflamapimod Treatment in Patients With Dementia With Lewy Bodies

Alam,

Maruff,

Doctrow

et al. 2023

Neurology

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Background and ObjectivesIn a proportion of patients, dementia with Lewy bodies (DLB) is associated with Alzheimer’s disease (AD) co-pathology, which is linked to accelerated cognitive decline and more extensive cortical atrophy. The objective herein was to evaluate the relationship between a biomarker of AD co-pathology, plasma tau phosphorylated at residue 181 (ptau181), and the treatment effects of the p38α kinase inhibitor neflamapimod, that targets the cholinergic degenerative process in DLB.MethodsThe AscenD-LB study was a phase 2a randomized (1:1) 16-week placebo-controlled clinical trial of neflamapimod in DLB, the main results of which have been published. After the study was completed (i.e.,post-hoc), pre-treatment plasma ptau181 levels were determined and participants grouped based on a cut-off for AD pathology of 2.2 pg/mL (established in a separate cohort to identify AD from healthy controls). Clinical outcomes for the comparison of placebo with neflamapimod 40mg three-times-daily (TID; the higher, and more clinically active of two doses studied) were analyzed utilizing Mixed Models for Repeated Measures within each sub-group (baseline plasma ptau181 < and ≥2.2 pg/mL).ResultsPre-treatment plasma ptau181 levels determined in eight-five participants with mild-to-moderate DLB receiving cholinesterase inhibitors; with 45 participants below, and 40 above, the 2.2 pg/mL cut-off at baseline. In the 16-week treatment period, in the comparison of placebo with neflamapimod 40mg TID, for all endpoints evaluated, improvements with neflamapimod treatment were greater in participants below the cut-off, compared with that in those above the cut-off. In addition, participants below the ptau181 cut-off at baseline showed significant improvement over placebo in an Attention Composite measure (+0.42, 95%CI: 0.07–0.78,p=0.023,d=0.78), the Clinical Dementia Rating Scale Sum of Boxes (−0.60, 95%CI:-1.04,-0.06,p=0.031,d=0.70), the Timed Up and Go test (−3.1 sec, 95%CI:-4.7,-1.6,p<0.001,d=0.74), and International Shopping List Test-Recognition (+1.4, 95% CI: 0.2–2.5,p=0.024,d=1.00).DiscussionExclusion of patients with elevated plasma ptau181, potentially through excluding patients with extensive cortical neurodegeneration, enriches for a DLB patient population that is more responsive to neflamapimod. More generally, plasma biomarkers of AD co-pathology at study entry should be considered as stratification variables in DLB clinical trials.NCT04001517at clinicaltrials.gov.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Association of Plasma Phosphorylated Tau With the Response to Neflamapimod Treatment in Patients With Dementia With Lewy Bodies

Alam,

Maruff,

Doctrow

et al. 2023

Neurology

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“…In particular, both film excerpts targeting Sadness recreated scenarios of personal or social loss. Overall, the non-motor manifestations in this cluster suggest a predominant dysfunction of the cholinergic basal forebrain complex and its connected cortex, implicated in tender and sad affiliative feelings [59,98], sleep regulation [99], and, together with the hippocampus, in episodic memory formation [100]. In particular, successful memory performance has recently been shown to rely on strong functional connectivity between the BF and insular cortex, a core area of socioemotional processing [101].…”

Section: Plos Onementioning

confidence: 96%

Beyond shallow feelings of complex affect: Non-motor correlates of subjective emotional experience in Parkinson’s disease

et al. 2023

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Affective disorders in Parkinson’s disease (PD) concern several components of emotion. However, research on subjective feeling in PD is scarce and has produced overall varying results. Therefore, in this study, we aimed to evaluate the subjective emotional experience and its relationship with autonomic symptoms and other non-motor features in PD patients. We used a battery of film excerpts to elicit Amusement, Anger, Disgust, Fear, Sadness, Tenderness, and Neutral State, in 28 PD patients and 17 healthy controls. Self-report scores of emotion category, intensity, and valence were analyzed. In the PD group, we explored the association between emotional self-reported scores and clinical scales assessing autonomic dysregulation, depression, REM sleep behavior disorder, and cognitive impairment. Patient clustering was assessed by considering relevant associations. Tenderness occurrence and intensity of Tenderness and Amusement were reduced in the PD patients. Tenderness occurrence was mainly associated with the overall cognitive status and the prevalence of gastrointestinal symptoms. In contrast, the intensity and valence reported for the experience of Amusement correlated with the prevalence of urinary symptoms. We identified five patient clusters, which differed significantly in their profile of non-motor symptoms and subjective feeling. Our findings further suggest the possible existence of a PD phenotype with more significant changes in subjective emotional experience. We concluded that the subjective experience of complex emotions is impaired in PD. Non-motor feature grouping suggests the existence of disease phenotypes profiled according to specific deficits in subjective emotional experience, with potential clinical implications for the adoption of precision medicine in PD. Further research on larger sample sizes, combining subjective and physiological measures of emotion with additional clinical features, is needed to extend our findings.

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“…The basal forebrain (BF) is a heterogenous region composed of multiple areas, including substantia innominate, nucleus accumbens and ventral pallidum of the basal ganglia, bed nucleus of the stria terminalis, the preoptic area, the nucleus basalis of Meynert, the septal nuclei and diagonal band of Broca ( Tsanov, 2022 ). Cholinergic, glutamatergic and GABAergic neurons are the major neuronal populations in the basal forebrain ( Xu et al, 2015 ).…”

Section: Basal Forebrainmentioning

confidence: 99%

Recent advances in neural mechanism of general anesthesia induced unconsciousness: insights from optogenetics and chemogenetics

Gao,

Wang,

Zhang

et al. 2024

Front. Pharmacol.

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For over 170 years, general anesthesia has played a crucial role in clinical practice, yet a comprehensive understanding of the neural mechanisms underlying the induction of unconsciousness by general anesthetics remains elusive. Ongoing research into these mechanisms primarily centers around the brain nuclei and neural circuits associated with sleep-wake. In this context, two sophisticated methodologies, optogenetics and chemogenetics, have emerged as vital tools for recording and modulating the activity of specific neuronal populations or circuits within distinct brain regions. Recent advancements have successfully employed these techniques to investigate the impact of general anesthesia on various brain nuclei and neural pathways. This paper provides an in-depth examination of the use of optogenetic and chemogenetic methodologies in studying the effects of general anesthesia on specific brain nuclei and pathways. Additionally, it discusses in depth the advantages and limitations of these two methodologies, as well as the issues that must be considered for scientific research applications. By shedding light on these facets, this paper serves as a valuable reference for furthering the accurate exploration of the neural mechanisms underlying general anesthesia. It aids researchers and clinicians in effectively evaluating the applicability of these techniques in advancing scientific research and clinical practice.

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Basal Forebrain Impairment: Understanding the Mnemonic Function of the Septal Region Translates in Therapeutic Advances

Cited by 6 publications

References 264 publications

Association of Plasma Phosphorylated Tau With the Response to Neflamapimod Treatment in Patients With Dementia With Lewy Bodies

Association of Plasma Phosphorylated Tau With the Response to Neflamapimod Treatment in Patients With Dementia With Lewy Bodies

Beyond shallow feelings of complex affect: Non-motor correlates of subjective emotional experience in Parkinson’s disease

Recent advances in neural mechanism of general anesthesia induced unconsciousness: insights from optogenetics and chemogenetics

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