Saliva microRNA Biomarkers of Cumulative Concussion

Hicks, Steven D.; Olympia, Robert P.; Onks, Cayce; Kim, Raymond Y.; Zhen, Kevin; Fedorchak, Gregory; DeVita, Samantha; Rangnekar, Aakanksha; Heller, Matthew; Zwibel, Hallie; Monteith, Chuck; Gagnon, Zofia; McLoughlin, Callan D.; Randall, Jason R.; Madeira, Miguel M.; Campbell, Thomas R.; Fengler, Elise; Dretsch, Michael N.; Neville, Christopher; Middleton, Frank

doi:10.3390/ijms21207758

Cited by 15 publications

(23 citation statements)

References 46 publications

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“…In this investigation, using 22 salivary miRNAs previously implicated in concussion, we identified 10 distinct biological clusters. These clusters display miRNA perturbations that mirror trends from previous studies, 9–16 and each cluster is associated with unique biological pathways that have been implicated in concussion pathophysiology. With regard to medical/demographic characteristics, there were differences among clusters in age, days post-injury (of saliva collection), and history of prior concussions, indicating that miRNA profiles may be sensitive to acute changes following injury and, perhaps, cumulative concussion effects.…”

Section: Discussionsupporting

confidence: 71%

“…Increasing evidence suggests that salivary microRNA (miRNA) levels may reflect underlying biological changes following concussion. Saliva miRNA levels change after head impacts, 9 , 10 differentiate individuals with concussion from non-concussed peers, 11 and display longitudinal patterns that mirror recovery trajectories. 12 These patterns may be useful in diagnosing concussion, 13-15 or predicting the duration of symptoms.…”

Section: Introductionmentioning

confidence: 99%

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Defining Biological Phenotypes of Mild Traumatic Brain Injury Using Saliva MicroRNA Profiles

Hicks

Leddy

Lichak

et al. 2022

Journal of Neurotrauma

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Concussion is a heterogeneous injury that relies predominantly on subjective symptom reports for patient assessment and treatment. Developing an objective, biological test could aid phenotypic categorization of concussion patients, leading to advances in personalized treatment. This prospective multi-center study employed saliva micro-ribonucleic acid (miRNA) levels to stratify 251 individuals with concussion into biological subgroups. Using miRNA biological clusters, our objective was to assess for differences in medical/demographic characteristics, symptoms, and functional measures of balance and cognition. The miRNAs that best defined each cluster were used to identify physiological pathways that characterized each cluster. The 251 participants (mean age: 18 ± 7 years; 57% male) were optimally grouped into 10 clusters based on 22 miRNA levels. The clusters differed in age (χ 2 = 19.1, p = 0.024), days post-injury at the time of saliva collection (χ 2 = 22.6; p = 0.007), and number of prior concussions (χ 2 = 17.6, p = 0.040). The clusters also differed in symptom reports for fatigue (χ 2 = 17.7; p = 0.039), confusion (χ 2 = 22.3; p = 0.008), difficulty remembering (χ 2 = 22.0; p = 0.009), and trouble falling asleep (χ 2 = 17.2; p = 0.046), but not objective balance or cognitive performance ( p > 0.05). The miRNAs that defined concussion clusters regulate 16 physiological pathways, including adrenergic signaling, estrogen signaling, fatty acid metabolism, GABAergic signaling, synaptic vesicle cycling, and transforming growth factor (TGF)-β signaling. These results show that saliva miRNA levels may stratify individuals with concussion based on underlying biological perturbations that are relevant to both symptomology and pharmacological targets. If validated in a larger cohort, miRNA assessment could aid individualized, biology-driven concussion treatment.

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Section: Discussionsupporting

confidence: 71%

Section: Introductionmentioning

confidence: 99%

Defining Biological Phenotypes of Mild Traumatic Brain Injury Using Saliva MicroRNA Profiles

Hicks

Leddy

Lichak

et al. 2022

Journal of Neurotrauma

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“…However, the published pathways were derived from a single database, e.g., KEGG or Ingenuity Pathway analysis, respectively, leading to only partial results due to small overlap across pathway databases (Rahmati et al 2017). Despite this methodological limitation the mTOR, TGF-beta, IGF1R, neurotrophin and inflammatory signaling represent major overlap with findings of our meta-analysis and support their involvement in post mTBI conditions by multiple evidence (Qin et al 2018;Atif and Hicks 2019;Devoto et al 2020;Hicks et al 2020a;Di Pietro et al 2021).…”

Section: Signaling Pathways Altered After Mtbimentioning

confidence: 50%

Peripheral microRNA alteration and pathway signaling after mild traumatic brain injur

Matyasova¹,

Csicsatkova²,

Filipčík³

et al. 2021

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Discovering novel diagnostic biomarkers and signatures for traumatic brain injury (TBI) represents a major challenge in the brain trauma research. Detailed analysis of post-concussive molecular pathways based on experimental data could provide a new insight into the pathophysiological sequelae and mapping of recovery mechanisms involved in TBI. MicroRNAs (miRNAs) detectable in peripheral body fluids after TBI are promising carriers of this missing knowledge. In order to define the signature of peripheral miRNAs signaling associated with mild TBI (mTBI), we performed a comprehensive meta-analysis of miRNA profiles in mTBI patients using multiple curated pathway databases. Using a bioinformatic pipeline with integrated data analysis we identified a set of genes that are connected to deregulated circulating miRNAs following the mTBI. Identified genes belong to specific pathways of MAPK, TGF-β, WNT, TLR2/4, PI3K/AKT, insulin, and growth factor signaling. Since the enriched pathways markedly overlap among the various biological fluids, signaling associated with mTBI that is concomitantly reflected in serum, plasma and saliva is robust and unique. Furthermore, we identified a network of 33 validated interacting proteins and their regulatory miRNAs that link the post-mTBI signaling in peripheral fluids with neurodegenerationassociated interaction pathways. Presented data provide a comprehensive insight into molecular events following mTBI, and the top predicted genes represent a group of novel candidate targets to be validated in connection with mTBI.

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“…Salivary microRNAs can reflect critical biological processes related to a trauma, such as hypoxia, neurogenesis, axon repair and cell death. MicroRNAs, expressed from the saliva, seem to be an accurate non-invasive alternative to diagnose a traumatic brain injury due to a concussion [ 68 , 69 ].…”

Section: Resultsmentioning

confidence: 99%

The Effects of Physical Exercise on Saliva Composition: A Comprehensive Review

Ntovas

Loumprinis

Maniatakos³

et al. 2022

Dentistry Journal

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Saliva consists of organic and inorganic constituents. During exercise, analysis of the saliva can provide valuable information regarding training stress, adaptation and exercise performance. The objective of the present article was to review the effect of physical exercise on saliva composition. The shift in the composition of the saliva, during and after a workout, reflects the benefits of exercise, its potential risks and the capability of the saliva to serve as a health indicator. The type and the frequency of training, the physical condition and the athletes’ general health influence the hormones, immunoglobulins and saliva enzymes. The correlation between saliva and physical exercise has to be further investigated and the available knowledge to be applied for the benefit of the athletes during sports activities.

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Saliva microRNA Biomarkers of Cumulative Concussion

Cited by 15 publications

References 46 publications

Defining Biological Phenotypes of Mild Traumatic Brain Injury Using Saliva MicroRNA Profiles

Defining Biological Phenotypes of Mild Traumatic Brain Injury Using Saliva MicroRNA Profiles

Peripheral microRNA alteration and pathway signaling after mild traumatic brain injur

The Effects of Physical Exercise on Saliva Composition: A Comprehensive Review

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