Changes in plasma concentrations of novel vascular and inflammatory biomarkers in obstructive sleep apnea patients pre- and post-stroke.

BACKGROUND: Obstructive sleep apnea (OSA) is increasingly recognized as a common condition in the general population and causes significant OSA-associated morbidities including cardiovascular and cerebrovascular events such as cerebral small vessel disease (CSVD) and stroke. METHODS: In this study, using sensitive ELISA immunoassays, we measured subset of endothelial/vascular and inflammatory biomarkers as well as neurofilament light chain (NfL), a sensitive marker for neuroaxonal injury, using plasma from OSA patients post-stroke (Acute Cerebral Infarction (ACI), N = 26) to determine their usefulness as potential prognostic markers in disease progression. RESULTS: Our results showed significantly increased plasma TNFα and NfL concentrations and decreased concentrations of platelet derived growth factor (PDGF-AA) in post-stroke OSA patients with more severe white matter hyperintensities (WMHs). And after separating the patients based on sex, compared to females, male post-stroke OSA patients with severe WMHs have increased circulating levels of inflammatory chemokine CXCL10 and cytokine Interleukin-10 (IL-10) and significantly decreased levels of Angiopoietin-1 (Ang-1) an important protein responsible for endothelial/vascular integrity functions. Importantly, in a subset of newly diagnosed OSA patients (without prior history of stroke), significantly increased plasma CXCL10 levels and decreased plasma Ang-1 levels were also readily observed when compared to healthy controls, indicating possible altered endothelial integrity and ongoing vascular inflammation in these newly diagnosed OSA patients. CONCLUSIONS: In summary, our study has identified a novel set of plasma biomarkers including PDGF-AA, CXCL10 and Ang-1 for their potential prognostic value for disease outcomes pre- and post-stroke in OSA patients and use as surrogate markers to measure efficacy of treatment modalities.

Erratum: Neurofilament light chain and vaccination status associate with clinical outcomes in severe COVID-19.

[This corrects the article DOI: 10.1016/j.isci.2022.105272.].

HDGFL2 cryptic proteins report presence of TDP-43 pathology in neurodegenerative diseases.

This letter demonstrates the potential of novel cryptic proteins resulting from TAR DNA-binding protein 43 (TDP-43) dysfunction as markers of TDP-43 pathology in neurodegenerative diseases.

Ribosomal quality control factors inhibit repeat-associated non-AUG translation from GC-rich repeats.

A GGGGCC (G4C2) hexanucleotide repeat expansion in C9ORF72 causes amyotrophic lateral sclerosis and frontotemporal dementia (C9ALS/FTD), while a CGG trinucleotide repeat expansion in FMR1 leads to the neurodegenerative disorder Fragile X-associated tremor/ataxia syndrome (FXTAS). These GC-rich repeats form RNA secondary structures that support repeat-associated non-AUG (RAN) translation of toxic proteins that contribute to disease pathogenesis. Here we assessed whether these same repeats might trigger stalling and interfere with translational elongation. We find that depletion of ribosome-associated quality control (RQC) factors NEMF, LTN1 and ANKZF1 markedly boost RAN translation product accumulation from both G4C2 and CGG repeats while overexpression of these factors reduces RAN production in both reporter assays and C9ALS/FTD patient iPSC-derived neurons. We also detected partially made products from both G4C2 and CGG repeats whose abundance increased with RQC factor depletion. Repeat RNA sequence, rather than amino acid content, is central to the impact of RQC factor depletion on RAN translation-suggesting a role for RNA secondary structure in these processes. Together, these findings suggest that ribosomal stalling and RQC pathway activation during RAN translation inhibits the generation of toxic RAN products. We propose augmenting RQC activity as a therapeutic strategy in GC-rich repeat expansion disorders.

TMEM106B core deposition associates with TDP-43 pathology and is increased in risk SNP carriers for frontotemporal dementia.

Genetic variation at the transmembrane protein 106B gene (TMEM106B) has been linked to risk of frontotemporal lobar degeneration with TDP-43 inclusions (FTLD-TDP) through an unknown mechanism. We found that presence of the TMEM106B rs3173615 protective genotype was associated with longer survival after symptom onset in a postmortem FTLD-TDP cohort, suggesting a slower disease course. The seminal discovery that filaments derived from TMEM106B is a common feature in aging and, across a range of neurodegenerative disorders, suggests that genetic variants in TMEM106B could modulate disease risk and progression through modulating TMEM106B aggregation. To explore this possibility and assess the pathological relevance of TMEM106B accumulation, we generated a new antibody targeting the TMEM106B filament core sequence. Analysis of postmortem samples revealed that the TMEM106B rs3173615 risk allele was associated with higher TMEM106B core accumulation in patients with FTLD-TDP. In contrast, minimal TMEM106B core deposition was detected in carriers of the protective allele. Although the abundance of monomeric full-length TMEM106B was unchanged, carriers of the protective genotype exhibited an increase in dimeric full-length TMEM106B. Increased TMEM106B core deposition was also associated with enhanced TDP-43 dysfunction, and interactome data suggested a role for TMEM106B core filaments in impaired RNA transport, local translation, and endolysosomal function in FTLD-TDP. Overall, these findings suggest that prevention of TMEM106B core accumulation is central to the mechanism by which the TMEM106B protective haplotype reduces disease risk and slows progression.

Dentists of tomorrow 2023: An analysis of the results of the ADEA 2023 survey of U.S. Dental School Seniors.

PURPOSE/OBJECTIVES: This study examines the journey of U.S. dental schools' predoctoral senior class of 2023, from the influences on and their motivations to pursue careers in dentistry, the aspects of their dental school experiences, plans upon graduation, and the investment in their careers. METHODS: This study is an analysis of the results of the American Dental Education Association (ADEA) survey of Dental School Seniors, 2023 Graduating Class. Forty-eight percent of senior students from 65 accredited U.S. dental schools in the 2022-2023 academic year responded to the ADEA survey. Whenever feasible, the class of 2023 survey respondents' answers were compared with those of their 2018 counterparts and with the responses of 2023 predoctoral senior students of historically underrepresented race and ethnicity (HURE) groups. RESULTS: The analysis revealed that 47% of the 2023 respondents decided to become a dentist before going to undergraduate college, more than the proportion of their 2018 colleagues (44%). When it comes to preparedness to practice dentistry, the responses indicated a high level of readiness to go into the profession. Ninety percent of respondents agreed and strongly agreed with the preparedness to practice statements indicated in the 2023 ADEA survey. Between 2018 and 2023, the share of survey respondents who planned to join a private practice immediately after graduation increased from 48% to 53%. More than one-third (34%) of the 2023 respondents and 40% of HURE participants who planned to go into private practice immediately upon graduation intended to join a dental service organization (DSO). When accounting for inflation, the average education debt for students graduating with debt who responded to ADEA 2023 survey was 12% lower than what the 2018 respondents reported. CONCLUSIONS: This study finds that some preferences changed between the 2018 and 2023 cohorts, the latter being more likely to decide to go to dental school before college and join a DSO private practice upon graduation. Senior students responding to the ADEA 2023 survey stated a high level of preparedness to practice dentistry.

Investigating the Pathogenic Interplay of Alpha-Synuclein, Tau, and Amyloid Beta in Lewy Body Dementia: Insights from Viral-Mediated Overexpression in Transgenic Mouse Models.

Lewy body dementia (LBD) is an often misdiagnosed and mistreated neurodegenerative disorder clinically characterized by the emergence of neuropsychiatric symptoms followed by motor impairment. LBD falls within an undefined range between Alzheimer's disease (AD) and Parkinson's disease (PD) due to the potential pathogenic synergistic effects of tau, beta-amyloid (Aß), and alpha-synuclein (αsyn). A lack of reliable and relevant animal models hinders the elucidation of the molecular characteristics and phenotypic consequences of these interactions. Here, the goal was to evaluate whether the viral-mediated overexpression of αsyn in adult hTau and APP/PS1 mice or the overexpression of tau in Line 61 hThy1-αsyn mice resulted in pathology and behavior resembling LBD. The transgenes were injected intravenously via the tail vein using AAV-PHP.eB in 3-month-old hThy1-αsyn, hTau, or APP/PS1 mice that were then aged to 6-, 9-, and 12-months-old for subsequent phenotypic and histological characterization. Although we achieved the widespread expression of αsyn in hTau and tau in hThy1-αsyn mice, no αsyn pathology in hTau mice and only mild tau pathology in hThy1-αsyn mice was observed. Additionally, cognitive, motor, and limbic behavior phenotypes were not affected by overexpression of the transgenes. Furthermore, our APP/PS1 mice experienced premature deaths starting at 3 months post-injection (MPI), therefore precluding further analyses at later time points. An evaluation of the remaining 3-MPI indicated no αsyn pathology or cognitive and motor behavioral changes. Taken together, we conclude that the overexpression of αsyn in hTau and APP/PS1 mice and tau in hThy1-αsyn mice does not recapitulate the behavioral and neuropathological phenotypes observed in LBD.

Perceptions of the dental education-wide climate: Analysis of the 2022 ADEA climate study focus groups.

OBJECTIVE: Climate assessments in higher and postsecondary education institutions are essential in landscaping inclusiveness and belonging for students, faculty, and staff. Although some climate assessments in dental education have been conducted either as part of their own campus or parent university climate assessment, a dental education-wide climate study has not been conducted across dental schools and allied dental education programs in the United States and Canada. METHODS: As integral part of the 2022 ADEA Climate Survey in Dental Education, focus groups were conducted from March to April 2022 to ascertain the perceptions of students, faculty, and staff in dental education. A phenomenological study on 85 focus group participants comprised of students, faculty, and staff at U.S. and Canadian dental schools and allied dental education programs was conducted. Thematic analyses were structured on four overarching categories: (1) belonging, (2). bias, (3) challenges and barriers, and (4) future recommendations. RESULTS: Several themes emerged across all groups. The lack of inclusion and belonging on campuses, deficit of faculty of color, microaggressions and differential treatment of students of color, and the need to enhance recruitment of diverse students and faculty of color were among themes identified. Exclusive to U.S. allied dental education programs, exposure to unique community and clinical opportunities for students was identified as an important theme to enhance diversity, equity, inclusion, and belonging (DEIB). CONCLUSION: The first-ever dental education-wide climate study exposes the need to undertake this initiative in academic dentistry. The ongoing challenges unveiled in this study offer an opportunity to identify solutions that are meaningful, inclusive, impactful, and that foster humanistic learning environments for students, faculty, and staff in dental education.

CRISPR interference to evaluate modifiers of C9ORF72-mediated toxicity in FTD.

Treatments for neurodegenerative disease, including Frontotemporal dementia (FTD) and Amyotrophic lateral sclerosis (ALS), remain rather limited, underscoring the need for greater mechanistic insight and disease-relevant models. Our ability to develop novel disease models of genetic risk factors, disease modifiers, and other FTD/ALS-relevant targets is impeded by the significant amount of time and capital required to develop conventional knockout and transgenic mice. To overcome these limitations, we have generated a novel CRISPRi interference (CRISPRi) knockin mouse. CRISPRi uses a catalytically dead form of Cas9, fused to a transcriptional repressor to knockdown protein expression, following the introduction of single guide RNA against the gene of interest. To validate the utility of this model we have selected the TAR DNA binding protein (TDP-43) splicing target, stathmin-2 (STMN2). STMN2 RNA is downregulated in FTD/ALS due to loss of TDP-43 activity and STMN2 loss is suggested to play a role in ALS pathogenesis. The involvement of STMN2 loss of function in FTD has yet to be determined. We find that STMN2 protein levels in familial FTD cases are significantly reduced compared to controls, supporting that STMN2 depletion may be involved in the pathogenesis of FTD. Here, we provide proof-of-concept that we can simultaneously knock down Stmn2 and express the expanded repeat in the Chromosome 9 open reading frame 72 (C9ORF72) gene, successfully replicating features of C9-associated pathology. Of interest, depletion of Stmn2 had no effect on expression or deposition of dipeptide repeat proteins (DPRs), but significantly decreased the number of phosphorylated Tdp-43 (pTdp-43) inclusions. We submit that our novel CRISPRi mouse provides a versatile and rapid method to silence gene expression in vivo and propose this model will be useful to understand gene function in isolation or in the context of other neurodegenerative disease models.

TDP-43-regulated cryptic RNAs accumulate in Alzheimer's disease brains.

BACKGROUND: Inclusions of TAR DNA-binding protein 43 kDa (TDP-43) has been designated limbic-predominant, age-related TDP-43 encephalopathy (LATE), with or without co-occurrence of Alzheimer's disease (AD). Approximately, 30-70% AD cases present TDP-43 proteinopathy (AD-TDP), and a greater disease severity compared to AD patients without TDP-43 pathology. However, it remains unclear to what extent TDP-43 dysfunction is involved in AD pathogenesis. METHODS: To investigate whether TDP-43 dysfunction is a prominent feature in AD-TDP cases, we evaluated whether non-conserved cryptic exons, which serve as a marker of TDP-43 dysfunction in amyotrophic lateral sclerosis (ALS) and frontotemporal lobar degeneration (FTLD-TDP), accumulate in AD-TDP brains. We assessed a cohort of 192 post-mortem brains from three different brain regions: amygdala, hippocampus, and frontal cortex. Following RNA and protein extraction, qRT-PCR and immunoassays were performed to quantify the accumulation of cryptic RNA targets and phosphorylated TDP-43 pathology, respectively. RESULTS: We detected the accumulation of misspliced cryptic or skiptic RNAs of STMN2, KCNQ2, UNC13A, CAMK2B, and SYT7 in the amygdala and hippocampus of AD-TDP cases. The topographic distribution of cryptic RNA accumulation mimicked that of phosphorylated TDP-43, regardless of TDP-43 subtype classification. Further, cryptic RNAs efficiently discriminated AD-TDP cases from controls. CONCLUSIONS: Overall, our results indicate that cryptic RNAs may represent an intriguing new therapeutic and diagnostic target in AD, and that methods aimed at detecting and measuring these species in patient biofluids could be used as a reliable tool to assess TDP-43 pathology in AD. Our work also raises the possibility that TDP-43 dysfunction and related changes in cryptic splicing could represent a common molecular mechanism shared between AD-TDP and FTLD-TDP.

Compassionate communities interventions: a scoping review.

BACKGROUND: The compassionate communities (CC) movement is an emergent health promotion approach to palliative care that views illness, dying, death, and loss as universal experiences, and challenges the notion that disease precludes one from health care attention and interest. It seeks to normalise these phenomena and reorientate care to communities by activating naturally occurring networks and mobilising community resources. A surge of interventions aligned with the ethos of CC has been observed over the last decade. This scoping review seeks to synthesise what is currently known about the design, efficacy, and impact of CC interventions. METHODS: Cochrane, PubMed, Scopus, and Web of Science were systematically searched. Hand searching was performed on three key journals, reference lists and citation lists of included articles, and relevant review articles. Two levels of analysis were conducted. First, a numerical presentation of the characteristics of CC interventions. Second, a thematically orientated narrative analysis of intervention efficacy. RESULTS: A total of 1,882 records were screened; 62 papers were included. Most were implemented by palliative care organisations in Europe, North America, and Australia. Included studies were mapped against Clark et al.'s taxonomy of end-of-life interventions: educational (n=17); service (n=20); clinical (n=3); cultural (n=4); and multi-dimensional (n=18) interventions are discussed. While preliminary findings are positive, claims of efficacy are limited due to methodological paucity in the field. CONCLUSIONS: We argue that the field would benefit from more transparent and theoretically driven CC interventions in order to explicate the mechanism(s) for successful intervention implementation.

Poly(GR) interacts with key stress granule factors promoting its assembly into cytoplasmic inclusions.

C9orf72 repeat expansions are the most common genetic cause of frontotemporal dementia (FTD) and amyotrophic lateral sclerosis (ALS). Poly(GR) proteins are toxic to neurons by forming cytoplasmic inclusions that sequester RNA-binding proteins including stress granule (SG) proteins. However, little is known of the factors governing poly(GR) inclusion formation. Here, we show that poly(GR) infiltrates a finely tuned network of protein-RNA interactions underpinning SG formation. It interacts with G3BP1, the key driver of SG assembly and a protein we found is critical for poly(GR) inclusion formation. Moreover, we discovered that N6-methyladenosine (m6A)-modified mRNAs and m6A-binding YTHDF proteins not only co-localize with poly(GR) inclusions in brains of c9FTD/ALS mouse models and patients with c9FTD, they promote poly(GR) inclusion formation via the incorporation of RNA into the inclusions. Our findings thus suggest that interrupting interactions between poly(GR) and G3BP1 or YTHDF1 proteins or decreasing poly(GR) altogether represent promising therapeutic strategies to combat c9FTD/ALS pathogenesis.

Correction: TDP-43 and other hnRNPs regulate cryptic exon inclusion of a key ALS/FTD risk gene, UNC13A.

[This corrects the article DOI: 10.1371/journal.pbio.3002028.].

Ribosomal quality control factors inhibit repeat-associated non-AUG translation from GC-rich repeats.

A GGGGCC (G4C2) hexanucleotide repeat expansion in C9ORF72 causes amyotrophic lateral sclerosis and frontotemporal dementia (C9ALS/FTD), while a CGG trinucleotide repeat expansion in FMR1 leads to the neurodegenerative disorder Fragile X-associated tremor/ataxia syndrome (FXTAS). These GC-rich repeats form RNA secondary structures that support repeat-associated non-AUG (RAN) translation of toxic proteins that contribute to disease pathogenesis. Here we assessed whether these same repeats might trigger stalling and interfere with translational elongation. We find that depletion of ribosome-associated quality control (RQC) factors NEMF, LTN1, and ANKZF1 markedly boost RAN translation product accumulation from both G4C2 and CGG repeats while overexpression of these factors reduces RAN production in both reporter cell lines and C9ALS/FTD patient iPSC-derived neurons. We also detected partially made products from both G4C2 and CGG repeats whose abundance increased with RQC factor depletion. Repeat RNA sequence, rather than amino acid content, is central to the impact of RQC factor depletion on RAN translation - suggesting a role for RNA secondary structure in these processes. Together, these findings suggest that ribosomal stalling and RQC pathway activation during RAN translation elongation inhibits the generation of toxic RAN products. We propose augmenting RQC activity as a therapeutic strategy in GC-rich repeat expansion disorders.

Perry syndrome: Novel DCTN1 mutation in a large kindred and first observation of prodromal disease.

INTRODUCTION: Perry syndrome (PS) is a hereditary neurodegenerative disorder caused by mutations in the DCTN1 gene and characterized by TDP-43 pathology. As the diagnosis is usually made at the advanced stages of the disease, there are no studies on the asymptomatic mutation carriers and their conversion to overt disease. METHODS: We personally examined 27 members of the large kindred of 104 individuals with familial parkinsonism. We evaluated each case with clinical (neurological examination; motor and non-motor scales), genetic testing (whole-exome or Sanger sequencing), and laboratory (neurofilament light, NFL; glial fibrillary acidic protein, GFAP) measures. Autopsy study was done on two individuals. RESULTS: The mean age at evaluation was 49 years. Comorbidities were present in 20 cases, including sleep problems (n = 15 total, sleep apnea in 7), dysautonomia (n = 10), weight loss (n = 8), and anxiety/depression (n = 8). Neurological abnormalities were present in 18, including parkinsonism (n = 7), isolated tremor (n = 2), and varied isolated signs in individual cases. Cognition and smell were preserved. Genetic testing revealed a novel c.200G > T (Gly67Val) mutation in the DCTN1 gene in 10 individuals. The mutation, segregated with the PS phenotype (n = 4), was absent in gnomAD, and in silico predictions indicated it was pathogenic. Three young mutation carriers were monosymptomatic (prodromal), and three were asymptomatic. Plasma NFL and GFAP values were similar among the cases. Autopsy studies showed typical PS neuropathological findings. CONCLUSIONS: We identified a novel pathogenic Gly67Val DCTN1 mutation. We report prodromal disease of PS in some mutation carriers; however, more investigation is necessary to confirm this observation.

Men of color in the health professions: Proceedings from the 2022 ADEA Men of Color in the Health Professions Summit.

The purpose of the American Dental Education Association (ADEA) Men of Color in the Health Professions Summit, held in August 2022 at ADEA's headquarters in Washington, DC, was to gather key thought leaders across a myriad of health professions and healthcare organizations and schools to cultivate intentional cross-disciplinary efforts in championing the need to address the low number of men of color entering not only dental, but also medicine, pharmacy, and health-related research careers. A pivotal follow-up step from the inaugural ADEA President's Symposium on Men of Color in the Health Professions at the March 2022 ADEA Annual Session & Exhibition in Philadelphia, the summit brought together academic health professions leaders, government agencies, health professions associations, and other key stakeholders to develop an action plan to support men of color entering the health professions. Moving the needle forward and increasing opportunities for underrepresented men of color in the health professions requires all academic health professions to work together. Highlights of the Summit included a keynote presentation by David Satcher, MD, PhD, the 16th Surgeon General of the United States; workgroup consensus statement development; health career pathways program presentations; strategic forecasting regarding challenges and opportunities in developing a coalition of health professions organizations to support men of color in the health professions; and frameworks for exploring coalition building.

TDP-43 and other hnRNPs regulate cryptic exon inclusion of a key ALS/FTD risk gene, UNC13A.

A major function of TAR DNA-binding protein-43 (TDP-43) is to repress the inclusion of cryptic exons during RNA splicing. One of these cryptic exons is in UNC13A, a genetic risk factor for amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD). The accumulation of cryptic UNC13A in disease is heightened by the presence of a risk haplotype located within the cryptic exon itself. Here, we revealed that TDP-43 extreme N-terminus is important to repress UNC13A cryptic exon inclusion. Further, we found hnRNP L, hnRNP A1, and hnRNP A2B1 bind UNC13A RNA and repress cryptic exon inclusion, independently of TDP-43. Finally, higher levels of hnRNP L protein associate with lower burden of UNC13A cryptic RNA in ALS/FTD brains. Our findings suggest that while TDP-43 is the main repressor of UNC13A cryptic exon inclusion, other hnRNPs contribute to its regulation and may potentially function as disease modifiers.