Your search keyword '"intermediate filaments"' showing total 7,064 results

1. Shifts in keratin isoform expression activate motility signals during wound healing.

Author

Nanes, Benjamin A., Bhatt, Kushal, Azarova, Evgenia, Rajendran, Divya, Munawar, Sabahat, Isogai, Tadamoto, Dean, Kevin M., and Danuser, Gaudenz

Subjects

*INTERMEDIATE filament proteins, *CYTOPLASMIC filaments, *CELL motility, *CELL physiology, *EPITHELIUM, *WOUND healing, *WNT signal transduction, KERATINOCYTE differentiation

Abstract

Keratin intermediate filaments confer structural stability to epithelial tissues, but the reason this simple mechanical function requires a protein family with 54 isoforms is not understood. During skin wound healing, a shift in keratin isoform expression alters the composition of keratin filaments. If and how this change modulates cellular functions that support epidermal remodeling remains unclear. We report an unexpected effect of keratin isoform variation on kinase signal transduction. Increased expression of wound-associated keratin 6A, but not of steady-state keratin 5, potentiated keratinocyte migration and wound closure without compromising mechanical stability by activating myosin motors to increase contractile force generation. These results substantially expand the functional repertoire of intermediate filaments from their canonical role as mechanical scaffolds to include roles as isoform-tuned signaling scaffolds that organize signal transduction cascades in space and time to influence epithelial cell state. [Display omitted] • During skin wound healing, the isoform composition of keratin filaments changes • Wound-associated keratin isoforms organize cellular signals to activate myosin • Keratin isoform-dependent signaling is separable from canonical mechanical function Nanes et al. explore why the seemingly simple mechanical function of keratin intermediate filaments requires a protein family with 54 isoforms. They find that skin wound healing triggers a change in keratin isoform expression not to alter force resistance but to organize signals activating myosin and promoting cell motility. [ABSTRACT FROM AUTHOR]

Published

2024

2. Skeletal muscle adaptations following eccentric contractions are not mediated by keratin 18.

Author

Ganjayi, Muni Swamy, Frank, Samuel W., Krauss, Thomas A., York, Michael L., Bloch, Robert J., and Baumann, Cory W.

Subjects

SKELETAL muscle, KERATIN, EXERCISE therapy, MUSCLE strength, CYTOSKELETAL proteins

Abstract

The molecular mechanisms that drive muscle adaptations after eccentric exercise training are multifaceted and likely impacted by age. Previous studies have reported that many genes and proteins respond differently in young and older muscles following training. Keratin 18 (Krt18), a cytoskeletal protein involved in force transduction and organization, was found to be upregulated after muscles performed repeated bouts of eccentric contractions, with higher levels observed in young muscle compared with older muscle. Therefore, the purpose of this study was to determine if Krt18 mediates skeletal muscle adaptations following eccentric exercise training. The anterior crural muscles of Krt18 knockout (KO) and wild-type (WT) mice were subjected to either a single bout or repeated bouts of eccentric contractions, with isometric torque assessed across the initial and final bouts. Functionally, Krt18 KO and WT mice did not differ prior to performing any eccentric contractions (P ≥ 0.100). Muscle strength (tetanic isometric torques) and the ability to adapt to eccentric exercise training were also consistent across strains at all time points (P ≥ 0.169). Stated differently, immediate strength deficits and the recovery of strength following a single bout or multiple bouts of eccentric contractions were similar between Krt18 KO and WT mice. In summary, the absence of Krt18 does not impede the muscle's ability to adapt to repeated eccentric contractions, suggesting it is not essential for exercise-induced remodeling. NEW & NOTEWORTHY: The molecular processes that underlie the changes in skeletal muscle following eccentric exercise training are complex and involve multiple factors. Our findings indicate that Krt18 may not play a significant role in muscle adaptations following eccentric exercise training, likely due to its low expression in skeletal muscle. These results underscore the complexity of the molecular mechanisms that contribute to muscle plasticity and highlight the need for further research in this area. [ABSTRACT FROM AUTHOR]

Published

2024

3. Nuclear lamin facilitates collective border cell invasion into confined spaces in vivo.

Author

Penfield, Lauren and Montell, Denise

Subjects

Animals, Female, Cell Nucleus, Drosophila, Intermediate Filaments, Lamin Type B, Nuclear Lamina, Ovary, Cell Movement

Abstract

Cells migrate collectively through confined environments during development and cancer metastasis. The nucleus, a stiff organelle, impedes single cells from squeezing into narrow channels within artificial environments. However, how nuclei affect collective migration into compact tissues is unknown. Here, we use border cells in the fly ovary to study nuclear dynamics in collective, confined in vivo migration. Border cells delaminate from the follicular epithelium and squeeze into tiny spaces between cells called nurse cells. The lead cell nucleus transiently deforms within the lead cell protrusion, which then widens. The nuclei of follower cells deform less. Depletion of the Drosophila B-type lamin, Lam, compromises nuclear integrity, hinders expansion of leading protrusions, and impedes border cell movement. In wildtype, cortical myosin II accumulates behind the nucleus and pushes it into the protrusion, whereas in Lam-depleted cells, myosin accumulates but does not move the nucleus. These data suggest that the nucleus stabilizes lead cell protrusions, helping to wedge open spaces between nurse cells.

Published

2023

4. Serum neurofilament light chain levels at attack predict post-attack disability worsening and are mitigated by inebilizumab: analysis of four potential biomarkers in neuromyelitis optica spectrum disorder.

Author

Aktas, Orhan, Hartung, Hans-Peter, Smith, Michael, Rees, William, Fujihara, Kazuo, Paul, Friedemann, Marignier, Romain, Bennett, Jeffrey, Kim, Ho, Weinshenker, Brian, Pittock, Sean, Wingerchuk, Dean, Cutter, Gary, She, Dewei, Gunsior, Michele, Cimbora, Daniel, Katz, Eliezer, and Cree, Bruce

Subjects

CLINICAL NEUROLOGY, RANDOMISED TRIALS, Humans, Neuromyelitis Optica, Intermediate Filaments, Aquaporin 4, Immunoglobulin G, Biomarkers, Autoantibodies

Abstract

OBJECTIVE: To investigate relationships between serum neurofilament light chain (sNfL), ubiquitin C-terminal hydrolase L1 (sUCHL1), tau (sTau) and glial fibrillary acidic protein (sGFAP) levels and disease activity/disability in neuromyelitis optica spectrum disorder (NMOSD), and the effects of inebilizumab on these biomarkers in N-MOmentum. METHODS: N-MOmentum randomised participants to receive inebilizumab or placebo with a randomised controlled period (RCP) of 28 weeks and an open-label follow-up period of ≥2 years. The sNfL, sUCHL1, sTau and sGFAP were measured using single-molecule arrays in 1260 scheduled and attack-related samples from N-MOmentum participants (immunoglobulin G (IgG) autoantibodies to aquaporin-4-positive, myelin oligodendrocyte glycoprotein-IgG-positive or double autoantibody-negative) and two control groups (healthy donors and patients with relapsing-remitting multiple sclerosis). RESULTS: The concentration of all four biomarkers increased during NMOSD attacks. At attack, sNfL had the strongest correlation with disability worsening during attacks (Spearman R2=0.40; p=0.01) and prediction of disability worsening after attacks (sNfL cut-off 32 pg/mL; area under the curve 0.71 (95% CI 0.51 to 0.89); p=0.02), but only sGFAP predicted upcoming attacks. At RCP end, fewer inebilizumab-treated than placebo-treated participants had sNfL>16 pg/mL (22% vs 45%; OR 0.36 (95% CI 0.17 to 0.76); p=0.004). CONCLUSIONS: Compared with sGFAP, sTau and sUCHL1, sNfL at attack was the strongest predictor of disability worsening at attack and follow-up, suggesting a role for identifying participants with NMOSD at risk of limited post-relapse recovery. Treatment with inebilizumab was associated with lower levels of sGFAP and sNfL than placebo. TRIAL REGISTRATION NUMBER: NCT02200770.

Published

2023

5. Intermediate filaments at a glance.

Author

Coelho-Rato, Leila S., Parvanian, Sepideh, Salajkova, Sarka Andrs, Medalia, Ohad, and Eriksson, John E.

Abstract

Intermediate filaments (IFs) comprise a large family of versatile cytoskeletal proteins, divided into six subtypes with tissue-specific expression patterns. IFs have a wide repertoire of cellular functions, including providing structural support to cells, as well as active roles in mechanical support and signaling pathways. Consequently, defects in IFs are associated with more than 100 diseases. In this Cell Science at a Glance article, we discuss the established classes of IFs and their general features, their functions beyond structural support, and recent advances in the field. We also highlight their involvement in disease and potential use as clinical markers of pathological conditions. Finally, we provide our view on current knowledge gaps and the future directions of the IF field. [ABSTRACT FROM AUTHOR]

Published

2024

6. Inhibition of PDIs Downregulates Core LINC Complex Proteins, Promoting the Invasiveness of MDA-MB-231 Breast Cancer Cells in Confined Spaces In Vitro.

Author

Young, Natalie, Gui, Zizhao, Mustafa, Suleiman, Papa, Kleopatra, Jessop, Emily, Ruddell, Elizabeth, Bevington, Laura, Quinlan, Roy A., Benham, Adam M., Goldberg, Martin W., Obara, Boguslaw, and Karakesisoglou, Iakowos

Subjects

*NUCLEAR membranes, *BREAST, *CANCER cells, *BREAST cancer, *TRIPLE-negative breast cancer, *QUATERNARY structure, *NUCLEAR matrix

Abstract

Eukaryotic cells tether the nucleoskeleton to the cytoskeleton via a conserved molecular bridge, called the LINC complex. The core of the LINC complex comprises SUN-domain and KASH-domain proteins that directly associate within the nuclear envelope lumen. Intra- and inter-chain disulphide bonds, along with KASH-domain protein interactions, both contribute to the tertiary and quaternary structure of vertebrate SUN-domain proteins. The significance of these bonds and the role of PDIs (protein disulphide isomerases) in LINC complex biology remains unclear. Reducing and non-reducing SDS-PAGE analyses revealed a prevalence of SUN2 homodimers in non-tumorigenic breast epithelia MCF10A cells, but not in the invasive triple-negative breast cancer MDA-MB-231 cell line. Furthermore, super-resolution microscopy revealed SUN2 staining alterations in MCF10A, but not in MDA-MB-231 nuclei, upon reducing agent exposure. While PDIA1 levels were similar in both cell lines, pharmacological inhibition of PDI activity in MDA-MB-231 cells led to SUN-domain protein down-regulation, as well as Nesprin-2 displacement from the nucleus. This inhibition also caused changes in perinuclear cytoskeletal architecture and lamin downregulation, and increased the invasiveness of PDI-inhibited MDA-MB-231 cells in space-restrictive in vitro environments, compared to untreated cells. These results emphasise the key roles of PDIs in regulating LINC complex biology, cellular architecture, biomechanics, and invasion. [ABSTRACT FROM AUTHOR]

Published

2024

7. Blood neurofilament light levels predict non-relapsing progression following anti-CD20 therapy in relapsing and primary progressive multiple sclerosis: findings from the ocrelizumab randomised, double-blind phase 3 clinical trials.

Author

Bar-Or, Amit, Thanei, Gian-Andrea, Harp, Christopher, Bernasconi, Corrado, Bonati, Ulrike, Cross, Anne H, Fischer, Saloumeh, Gaetano, Laura, Hauser, Stephen L, Hendricks, Robert, Kappos, Ludwig, Kuhle, Jens, Leppert, David, Model, Fabian, Sauter, Annette, Koendgen, Harold, Jia, Xiaoming, and Herman, Ann E

Subjects

Intermediate Filaments, Humans, Multiple Sclerosis, Multiple Sclerosis, Chronic Progressive, Multiple Sclerosis, Relapsing-Remitting, Acute Disease, Disease Progression, Recurrence, Biomarker, Disease progression, Multiple sclerosis, NfL, Ocrelizumab, Brain Disorders, Neurodegenerative, Autoimmune Disease, Prevention, Clinical Research, Clinical Trials and Supportive Activities, Neurosciences, Aetiology, 2.1 Biological and endogenous factors, Neurological, Clinical Sciences, Public Health and Health Services

Abstract

BackgroundNeurofilament light chain (NfL), a neuronal cytoskeletal protein that is released upon neuroaxonal injury, is associated with multiple sclerosis (MS) relapsing activity and has demonstrated some prognostic ability for future relapse-related disease progression, yet its value in assessing non-relapsing disease progression remains unclear.MethodsWe examined baseline and longitudinal blood NfL levels in 1421 persons with relapsing MS (RMS) and 596 persons with primary progressive MS (PPMS) from the pivotal ocrelizumab MS trials. NfL treatment-response and risk for disease worsening (including disability progression into the open-label extension period and slowly expanding lesions [SELs] on brain MRI) at baseline and following treatment with ocrelizumab were evaluated using time-to-event analysis and linear regression models.FindingsIn persons from the RMS control arms without acute disease activity and in the entire PPMS control arm, higher baseline NfL was prognostic for greater whole brain and thalamic atrophy, greater volume expansion of SELs, and clinical progression. Ocrelizumab reduced NfL levels vs. controls in persons with RMS and those with PPMS, and abrogated the prognostic value of baseline NfL on disability progression. Following effective suppression of relapse activity by ocrelizumab, NfL levels at weeks 24 and 48 were significantly associated with long-term risk for disability progression, including up to 9 years of observation in RMS and PPMS.InterpretationHighly elevated NfL from acute MS disease activity may mask a more subtle NfL abnormality that reflects underlying non-relapsing progressive biology. Ocrelizumab significantly reduced NfL levels, consistent with its effects on acute disease activity and disability progression. Persistently elevated NfL levels, observed in a subgroup of persons under ocrelizumab treatment, demonstrate potential clinical utility as a predictive biomarker of increased risk for clinical progression. Suppression of relapsing biology with high-efficacy immunotherapy provides a window into the relationship between NfL levels and future non-relapsing progression.FundingF. Hoffmann-La Roche Ltd.

Published

2023

8. Prognostic performance of blood neurofilament light chain protein in hospitalized COVID-19 patients without major central nervous system manifestations: an individual participant data meta-analysis

Author

Abdelhak, Ahmed, Barba, Lorenzo, Romoli, Michele, Benkert, Pascal, Conversi, Francesco, D’Anna, Lucio, Masvekar, Ruturaj R, Bielekova, Bibiana, Prudencio, Mercedes, Petrucelli, Leonard, Meschia, James F, Erben, Young, Furlan, Roberto, De Lorenzo, Rebecca, Mandelli, Alessandra, Sutter, Raoul, Hert, Lisa, Epple, Varenka, Marastoni, Damiano, Sellner, Johann, Steinacker, Petra, Aamodt, Anne Hege, Heggelund, Lars, Dyrhol-Riise, Anne Margarita, Virhammar, Johan, Fällmar, David, Rostami, Elham, Kumlien, Eva, Blennow, Kaj, Zetterberg, Henrik, Tumani, Hayrettin, Sacco, Simona, Green, Ari J, Otto, Markus, Kuhle, Jens, Ornello, Raffaele, Foschi, Matteo, and Abu-Rumeileh, Samir

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Clinical Research, Good Health and Well Being, Adult, Male, Humans, Middle Aged, Aged, Aged, 80 and over, Female, Prognosis, COVID-19, Biomarkers, Intermediate Filaments, Central Nervous System, Neurofilament Proteins, Biomarker, NfL, Neurosciences, Neurology & Neurosurgery, Clinical sciences

Abstract

Background and aimsTo investigate the prognostic value of blood neurofilament light chain protein (NfL) levels in the acute phase of coronavirus disease 2019 (COVID-19).MethodsWe conducted an individual participant data (IPD) meta-analysis after screening on MEDLINE and Scopus to May 23rd 2022. We included studies with hospitalized adult COVID-19 patients without major COVID-19-associated central nervous system (CNS) manifestations and with a measurement of blood NfL in the acute phase as well as data regarding at least one clinical outcome including intensive care unit (ICU) admission, need of mechanical ventilation (MV) and death. We derived the age-adjusted measures NfL Z scores and conducted mixed-effects modelling to test associations between NfL Z scores and other variables, encompassing clinical outcomes. Summary receiver operating characteristic curves (SROCs) were used to calculate the area under the curve (AUC) for blood NfL.ResultsWe identified 382 records, of which 7 studies were included with a total of 669 hospitalized COVID-19 cases (mean age 66.2 ± 15.0 years, 68.1% males). Median NfL Z score at admission was elevated compared to the age-corrected reference population (2.37, IQR: 1.13-3.06, referring to 99th percentile in healthy controls). NfL Z scores were significantly associated with disease duration and severity. Higher NfL Z scores were associated with a higher likelihood of ICU admission, need of MV, and death. SROCs revealed AUCs of 0.74, 0.80 and 0.71 for mortality, need of MV and ICU admission, respectively.ConclusionsBlood NfL levels were elevated in the acute phase of COVID-19 patients without major CNS manifestations and associated with clinical severity and poor outcome. The marker might ameliorate the performance of prognostic multivariable algorithms in COVID-19.

Published

2023

9. Oxidative stress elicits the remodeling of vimentin filaments into biomolecular condensates

Author

Paula Martínez-Cenalmor, Alma E. Martínez, Diego Moneo-Corcuera, Patricia González-Jiménez, and Dolores Pérez-Sala

Subjects

Cysteine modification, Thiol group oxidation, Intermediate filaments, Biomolecular condensates, Phase separation, Oxidative protein modifications, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

The intermediate filament protein vimentin performs an essential role in cytoskeletal interplay and dynamics, mechanosensing and cellular stress responses. In pathology, vimentin is a key player in tumorigenesis, fibrosis and infection. Vimentin filaments undergo distinct and versatile reorganizations, and behave as redox sensors. The vimentin monomer possesses a central α-helical rod domain flanked by N- and C-terminal low complexity domains. Interactions between this type of domains play an important function in the formation of phase-separated biomolecular condensates, which in turn are critical for the organization of cellular components. Here we show that several oxidants, including hydrogen peroxide and diamide, elicit the remodeling of vimentin filaments into small particles. Oxidative stress elicited by diamide induces a fast dissociation of filaments into circular, motile dots, which requires the presence of the single vimentin cysteine residue, C328. This effect is reversible, and filament reassembly can occur within minutes of oxidant removal. Diamide-elicited vimentin droplets recover fluorescence after photobleaching. Moreover, fusion of cells expressing differentially tagged vimentin allows the detection of dots positive for both tags, indicating that vimentin dots merge upon cell fusion. The aliphatic alcohol 1,6-hexanediol, known to alter interactions between low complexity domains, readily dissolves diamide-elicited vimentin dots at low concentrations, in a C328 dependent manner, and hampers reassembly. Taken together, these results indicate that vimentin oxidation promotes a fast and reversible filament remodeling into biomolecular condensate-like structures, and provide primary evidence of its regulated phase separation. Moreover, we hypothesize that filament to droplet transition could play a protective role against irreversible damage of the vimentin network by oxidative stress.

Published

2024

10. Serum neurofilament light chain, brain infarcts, and the risk of stroke: a prospective population-based cohort study

Author

Dhana, Anisa, DeCarli, Charles, Aggarwal, Neelum T, Dhana, Klodian, Desai, Pankaja, Evans, Denis A, and Rajan, Kumar B

Subjects

Epidemiology, Health Sciences, Clinical Research, Neurosciences, Brain Disorders, Stroke, Aging, Neurological, Aged, Humans, Biomarkers, Brain Infarction, Cohort Studies, Intermediate Filaments, Neurodegenerative Diseases, Prospective Studies, Incidence, Neurofilament light chain, Brain infarcts, MRI, Public Health and Health Services

Abstract

Neurofilament light chain (NfL), a neuron-specific protein, has been related to several neurodegenerative diseases. In addition, elevated levels of NfL have also been observed in patients admitted to the hospital for stroke, suggesting that NfL as a biomarker may extend well beyond neurodegenerative diseases. Therefore, using data from the Chicago Health and Aging Project (CHAP), a population-based cohort study, we prospectively investigated the association of serum NfL levels with incident stroke and brain infarcts. During a follow-up of 3603 person-years, 133 (16.3%) individuals developed incident stroke, including ischemic and hemorrhagic. The HR (95%CI) of incident stroke was 1.28 (95%CI 1.10-1.50) per 1 standard deviation (SD) increase of log10 NfL serum levels. Compared to participants in the first tertile of NfL (i.e., lower levels), the risk of stroke was 1.68 times higher (95%CI 1.07-2.65) in those in the second tertile and 2.35 times higher (95%CI 1.45-3.81) in those in the third tertile of NfL. NfL levels were also positively associated with brain infarcts; 1-SD in log10 NfL levels was associated with 1.32 (95%CI 1.06-1.66) higher odds of one or more brain infarcts. These results suggest that NfL may serve as a biomarker of stroke in older adults.

Published

2023

11. Higher Levels of Cerebrospinal Fluid and Plasma Neurofilament Light in Human Immunodeficiency Virus-Associated Distal Sensory Polyneuropathy

Author

Ellis, Ronald J, Chenna, Ahmed, Lie, Yolanda, Curanovic, Dusica, Winslow, John, Tang, Bin, Marra, Christina M, Rubin, Leah H, Clifford, David B, McCutchan, J Allen, Gelman, Benjamin B, Robinson-Papp, Jessica, Petropoulos, Christos J, and Letendre, Scott L

Subjects

Medical Microbiology, Biomedical and Clinical Sciences, Neurosciences, Clinical Research, HIV/AIDS, Infection, Humans, Female, Middle Aged, Aged, Male, HIV, Intermediate Filaments, HIV Infections, Biomarkers, Polyneuropathies, polyneuropathy, biomarker, cerebrospinal fluid, neurofilament light, Biological Sciences, Medical and Health Sciences, Microbiology, Clinical sciences

Abstract

BackgroundNeurofilament light (NFL) chain concentrations, reflecting axonal damage, are seen in several polyneuropathies but have not been studied in human immunodeficiency virus (HIV) distal sensory polyneuropathy (DSP). We evaluated NFL in cerebrospinal fluid (CSF) and plasma in relation to DSP in people with HIV (PWH) from 2 independent cohorts and in people without HIV (PWoH).MethodsCohort 1 consisted of PWH from the CHARTER Study. Cohort 2 consisted of PWH and PWoH from the HIV Neurobehavioral Research Center (HNRC). We evaluated DSP signs and symptoms in both cohorts. Immunoassays measured NFL in CSF for all and for plasma as well in Cohort 2.ResultsCohort 1 consisted of 111 PWH, mean ± SD age 56.8 ± 8.32 years, 15.3% female, 38.7% Black, 49.6% White, current CD4+ T-cells (median, interquartile range [IQR]) 532/µL (295, 785), 83.5% with plasma HIV RNA ≤50 copies/mL. Cohort 2 consisted of 233 PWH of similar demographics to PWH in Cohort 1 but also 51 PWoH, together age 58.4 ± 6.68 years, 41.2% female, 18.0% Black, Hispanic, non-Hispanic White 52.0%, 6.00% White. In both cohorts of PWH, CSF and plasma NFL were significantly higher in both PWH with DSP signs. Findings were similar, albeit not significant, for PWoH. The observed relationships were not explained by confounds.ConclusionsBoth plasma and CSF NFL were elevated in PWH and PWoH with DSP. The convergence of our findings with others demonstrates that NFL is a reliable biomarker reflecting peripheral nerve injury. Biomarkers such as NFL might provide, validate, and optimize clinical trials of neuroregenerative strategies in HIV DSP.

Published

2023

12. White matter hyperintensity, neurofilament light chain, and cognitive decline

Author

Dhana, Anisa, DeCarli, Charles, Dhana, Klodian, Desai, Pankaja, Wilson, Robert S, Evans, Denis A, and Rajan, Kumar B

Subjects

Biomedical and Clinical Sciences, Neurosciences, Clinical Research, Acquired Cognitive Impairment, Aging, Behavioral and Social Science, Brain Disorders, 4.1 Discovery and preclinical testing of markers and technologies, Detection, screening and diagnosis, Humans, Aged, White Matter, Intermediate Filaments, Brain, Cognitive Dysfunction, Biomarkers, Clinical Sciences, Clinical and health psychology

Abstract

ObjectiveWe aimed to determine whether combining white matter hyperintensity (WMH) with neurofilament light chain (NfL) could provide additional information for cognition in older adults.MethodsUtilizing data from the population-based Chicago Health and Aging Project, we studied 701 individuals with both biomarkers and cognitive data during the follow-up period. NfL was measured using an ultrasensitive immunoassay, single-molecule array technology. MRI scans of the brain were acquired using 1.5-T systems. Global cognitive function was created as a composite measure of four neuropsychological tests, standardized and averaged to z-scores. Multivariable linear mixed-effects models were used to evaluate the association of WMH and NfL with the rate of cognitive decline.ResultsHigher WMH and NfL were associated with a faster rate of cognitive decline during the follow-up; β -coefficients (95%CIs) were -0.011 (-0.02, -0.001) and -0.010 (-0.017, -0.003), respectively. In individuals with lower concentration of NfL (i.e., bottom tertile), a higher WMH volume was associated with a faster cognitive decline ( β : -0.030; 95%CI -0.046, -0.014). Similarly, in individuals with lower volumes of WMH (i.e., bottom tertile), a higher concentrations of NfL was associated with a faster cognitive decline ( β : -0.023; 95%CI -0.042, -0.005). When we combined WMH with NfL, we noted a graded association with increasing volumes of WMH, particularly in people with lower NfL values.InterpretationWhile both biomarkers, WMH and NfL, were similarly associated with the annual rate of cognitive decline, our study suggests that they provide different underlying mechanisms affecting cognition.

Published

2023

13. Association of MRI Visible Perivascular Spaces and Neurofilament Light Chain: The Framingham Heart Study

Author

Ekenze, Oluchi, Pinheiro, Adlin, Demissie, Serkalem, Aparicio, Hugo J, Charidimou, Andreas, Beiser, Alexa S, Satizabal, Claudia L, Kautz, Tiffany, DeCarli, Charles, Greenberg, Steven, Seshadri, Sudha, and Romero, Jose R

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Aging, Alzheimer's Disease Related Dementias (ADRD), Neurodegenerative, Dementia, Cerebrovascular, Biomedical Imaging, Clinical Research, Neurosciences, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Vascular Cognitive Impairment/Dementia, Brain Disorders, Acquired Cognitive Impairment, Prevention, Neurological, Male, Humans, Female, Intermediate Filaments, Brain, Magnetic Resonance Imaging, Basal Ganglia, Longitudinal Studies, Cerebral Small Vessel Diseases, Alzheimer's disease, basal ganglia, cerebral small vessel disease, MRI visible perivascular spaces, neurofilament light chain, neuroaxonal injury, Alzheimer’s disease, Cognitive Sciences, Neurology & Neurosurgery, Clinical sciences, Biological psychology

Abstract

BackgroundNeurofilament light chain (NfL) is a marker of neuronal injury. Perivascular spaces (PVS) visible on magnetic resonance imaging (MRI) represent cerebral small vessel disease (CSVD) but their role as markers of neuronal injury needs further clarification.ObjectiveTo relate PVS burden according to brain topography and plasma NfL.MethodsFramingham Heart Study (FHS) participants with brain MRI and NfL measurements were included. PVS were rated in the basal ganglia (BG) and centrum semiovale (CSO) using validated methods and categorized based on counts. A mixed region variable representing high burden PVS in either BG or CSO was assessed. Multivariable linear regression analyses were used to relate PVS burden to log-transformed NfL levels in models adjusted for age, sex, FHS cohort, time between MRI and clinic exam, and image view (model 1), vascular risk factors (model 2), and white matter hyperintensity volume, covert brain infarcts, and cerebral microbleeds (model 3).ResultsAmong 1,457 participants (68.1±8.5 years, 45% males), NfL levels increased with higher PVS burden. Multivariable analysis showed an association of high PVS burden strictly in BG with NfL (β= 0.117, 95% CI 0.014-0.221; p = 0.027), but attenuated in model 3. The associations were mainly in participants≥65 years (β= 0.122, 95% CI 0.015-0.229, p = 0.026), women (β= 0.156, 95% CI 0.024-0.288, p = 0.021), and APOE ɛ4 non-carriers (β= 0.140, 95% CI 0.017-0.263, p = 0.026).ConclusionsThe association of strictly BG high PVS burden with NfL suggests a role for PVS as markers of neuroaxonal injury, but our results are hypothesis generating and require further replication.

Published

2023

14. Are the Head and Tail Domains of Intermediate Filaments Really Unstructured Regions?

Author

Tsilafakis, Konstantinos and Mavroidis, Manolis

Subjects

*CYTOPLASMIC filaments, *CELLULAR mechanics

Abstract

Intermediate filaments (IFs) are integral components of the cytoskeleton which provide cells with tissue-specific mechanical properties and are involved in a plethora of cellular processes. Unfortunately, due to their intricate architecture, the 3D structure of the complete molecule of IFs has remained unresolved. Even though most of the rod domain structure has been revealed by means of crystallographic analyses, the flanked head and tail domains are still mostly unknown. Only recently have studies shed light on head or tail domains of IFs, revealing certainsecondary structures and conformational changes during IF assembly. Thus, a deeper understanding of their structure could provide insights into their function. [ABSTRACT FROM AUTHOR]

Published

2024

15. Unique Role of Vimentin in the Intermediate Filament Proteins Family.

Author

Alieva, Irina B., Shakhov, Anton S., Dayal, Alexander A., Churkina, Aleksandra S., Parfenteva, Olga I., and Minin, Alexander A.

Subjects

*INTERMEDIATE filament proteins, *CYTOPLASMIC filaments, *VIMENTIN, *MICROTUBULES, *CROHN'S disease, *CELL morphology, *CELL cycle regulation

Abstract

Intermediate filaments (IFs), being traditionally the least studied component of the cytoskeleton, have begun to receive more attention in recent years. IFs are found in different cell types and are specific to them. Accumulated data have shifted the paradigm about the role of IFs as structures that merely provide mechanical strength to the cell. In addition to this role, IFs have been shown to participate in maintaining cell shape and strengthening cell adhesion. The data have also been obtained that point out to the role of IFs in a number of other biological processes, including organization of microtubules and microfilaments, regulation of nuclear structure and activity, cell cycle control, and regulation of signal transduction pathways. They are also actively involved in the regulation of several aspects of intracellular transport. Among the intermediate filament proteins, vimentin is of particular interest for researchers. Vimentin has been shown to be associated with a range of diseases, including cancer, cataracts, Crohn's disease, rheumatoid arthritis, and HIV. In this review, we focus almost exclusively on vimentin and the currently known functions of vimentin intermediate filaments (VIFs). This is due to the structural features of vimentin, biological functions of its domains, and its involvement in the regulation of a wide range of basic cellular functions, and its role in the development of human diseases. Particular attention in the review will be paid to comparing the role of VIFs with the role of intermediate filaments consisting of other proteins in cell physiology. [ABSTRACT FROM AUTHOR]

Published

2024

16. Vimentin at the core of wound healing.

Author

Coelho-Rato, Leila S., Parvanian, Sepideh, Modi, Mayank Kumar, and Eriksson, John E.

Subjects

*WOUND healing, *VIMENTIN, *CYTOSKELETAL proteins, *CYTOPLASMIC filaments, *TRANSFORMING growth factors, *EPITHELIAL-mesenchymal transition

Abstract

Vimentin deficiency results in poor wound healing, with defects that can be seen across all stages of the repair process. Due to its flexibility and structural properties, vimentin is necessary for immune cell migration, diapedesis, and extravasation. Vimentin is important for fibroblast functions that are essential for the proliferative and remodeling phases of wound healing. Vimentin is required for transforming growth factor-β signaling and epithelial-to-mesenchymal transition, which are necessary for re-epithelization. Extracellular forms of vimentin participate in wound healing by promoting clot formation, facilitating pathogen clearance, and boosting fibroblast proliferation, migration, and extracellular matrix deposition. As a member of the large family of intermediate filaments (IFs), vimentin has emerged as a highly dynamic and versatile cytoskeletal protein involved in many key processes of wound healing. It is well established that vimentin is involved in epithelial–mesenchymal transition (EMT) during wound healing and metastasis, during which epithelial cells acquire more dynamic and motile characteristics. Moreover, vimentin participates in multiple cellular activities supporting growth, proliferation, migration, cell survival, and stress resilience. Here, we explore the role of vimentin at each phase of wound healing, with focus on how it integrates different signaling pathways and protects cells in the fluctuating and challenging environments that characterize a healing tissue. As a member of the large family of intermediate filaments (IFs), vimentin has emerged as a highly dynamic and versatile cytoskeletal protein involved in many key processes of wound healing. It is well established that vimentin is involved in epithelial–mesenchymal transition (EMT) during wound healing and metastasis, during which epithelial cells acquire more dynamic and motile characteristics. Moreover, vimentin participates in multiple cellular activities supporting growth, proliferation, migration, cell survival, and stress resilience. Here, we explore the role of vimentin at each phase of wound healing, with a focus on how it integrates different signaling pathways and protects cells in the fluctuating and challenging environments that characterize a healing tissue. [ABSTRACT FROM AUTHOR]

Published

2024

17. Considering impact of age and sex on cardiac cytoskeletal components.

Author

Jones, Timothy L. M. and Woulfe, Kathleen C.

Subjects

*INTEGRAL functions, *CELL anatomy, *AGE, *CYTOPLASMIC filaments

Abstract

The cardiac cytoskeletal components are integral to cardiomyocyte function and are responsible for contraction, sustaining cell structure, and providing scaffolding to direct signaling. Cytoskeletal components have been implicated in cardiac pathology; however, less attention has been paid to age-related modifications of cardiac cytoskeletal components and how these contribute to dysfunction with increased age. Moreover, significant sex differences in cardiac aging have been identified, but we still lack a complete understanding to the mechanisms behind these differences. This review summarizes what is known about how key cardiomyocyte cytoskeletal components are modified because of age, as well as reported sex-specific differences. Thorough consideration of both age and sex as integral players in cytoskeletal function may reveal potential avenues for more personalized therapeutics. [ABSTRACT FROM AUTHOR]

Published

2024

18. Discovery of Trametinib as an orchestrator for cytoskeletal vimentin remodeling.

Author

Zhao, Shuangshuang, Li, Zhifang, Zhang, Qian, Zhang, Yue, Zhang, Jiali, Fan, Gaofeng, Cao, Xiaobao, and Jiu, Yaming

Abstract

The dynamic remodeling of the cytoskeletal network of vimentin intermediate filaments supports various cellular functions, including cell morphology, elasticity, migration, organelle localization, and resistance against mechanical or pathological stress. Currently available chemicals targeting vimentin predominantly induce network reorganization and shrinkage around the nucleus. Effective tools for long-term manipulation of vimentin network dispersion in living cells are still lacking, limiting in-depth studies on vimentin function and potential therapeutic applications. Here, we verified that a commercially available small molecule, trametinib, is capable of inducing spatial spreading of the cellular vimentin network without affecting its transcriptional or Translational regulation. Further evidence confirmed its low cytotoxicity and similar effects on different cell types. Importantly, Trametinib has no impact on the other two cytoskeletal systems, actin filaments and the microtubule network. Moreover, Trametinib regulates vimentin network dispersion rapidly and efficiently, with effects persisting for up to 48 h after drug withdrawal. We also ruled out the possibility that Trametinib directly affects the phosphorylation level of vimentin. In summary, we identified an unprecedented regulator Trametinib, which is capable of spreading the vimentin network toward the cell periphery, and thus complemented the existing repertoire of vimentin remodeling drugs in the field of cytoskeletal research. [ABSTRACT FROM AUTHOR]

Published

2024

19. Plectin plays a role in the migration and volume regulation of astrocytes: a potential biomarker of glioblastoma

Author

Maja Žugec, Borut Furlani, Maria J. Castañon, Boštjan Rituper, Irmgard Fischer, Giuseppe Broggi, Rosario Caltabiano, Giuseppe M. V. Barbagallo, Michelino Di Rosa, Daniele Tibullo, Rosalba Parenti, Nunzio Vicario, Saša Simčič, Victorio Martin Pozo Devoto, Gorazd B. Stokin, Gerhard Wiche, Jernej Jorgačevski, Robert Zorec, and Maja Potokar

Subjects

Astrocyte, Glioblastoma, Plectin, Aquaporin 4, Intermediate filaments, Cytoskeleton, Medicine

Abstract

Abstract Background The expression of aquaporin 4 (AQP4) and intermediate filament (IF) proteins is altered in malignant glioblastoma (GBM), yet the expression of the major IF-based cytolinker, plectin (PLEC), and its contribution to GBM migration and invasiveness, are unknown. Here, we assessed the contribution of plectin in affecting the distribution of plasmalemmal AQP4 aggregates, migratory properties, and regulation of cell volume in astrocytes. Methods In human GBM, the expression of glial fibrillary acidic protein (GFAP), AQP4 and PLEC transcripts was analyzed using publicly available datasets, and the colocalization of PLEC with AQP4 and with GFAP was determined by immunohistochemistry. We performed experiments on wild-type and plectin-deficient primary and immortalized mouse astrocytes, human astrocytes and permanent cell lines (U-251 MG and T98G) derived from a human malignant GBM. The expression of plectin isoforms in mouse astrocytes was assessed by quantitative real-time PCR. Transfection, immunolabeling and confocal microscopy were used to assess plectin-induced alterations in the distribution of the cytoskeleton, the influence of plectin and its isoforms on the abundance and size of plasmalemmal AQP4 aggregates, and the presence of plectin at the plasma membrane. The release of plectin from cells was measured by ELISA. The migration and dynamics of cell volume regulation of immortalized astrocytes were assessed by the wound-healing assay and calcein labeling, respectively. Results A positive correlation was found between plectin and AQP4 at the level of gene expression and protein localization in tumorous brain samples. Deficiency of plectin led to a decrease in the abundance and size of plasmalemmal AQP4 aggregates and altered distribution and bundling of the cytoskeleton. Astrocytes predominantly expressed P1c, P1e, and P1g plectin isoforms. The predominant plectin isoform associated with plasmalemmal AQP4 aggregates was P1c, which also affected the mobility of astrocytes most prominently. In the absence of plectin, the collective migration of astrocytes was impaired and the dynamics of cytoplasmic volume changes in peripheral cell regions decreased. Plectin’s abundance on the plasma membrane surface and its release from cells were increased in the GBM cell lines. Conclusions Plectin affects cellular properties that contribute to the pathology of GBM. The observed increase in both cell surface and released plectin levels represents a potential biomarker and therapeutic target in the diagnostics and treatment of GBMs.

Published

2024

20. Decreased neurofilament light chain levels in estriol‐treated multiple sclerosis

Author

Voskuhl, Rhonda, Kuhle, Jens, Siddarth, Prabha, Itoh, Noriko, Patel, Kevin, and MacKenzie‐Graham, Allan

Subjects

Reproductive Medicine, Biomedical and Clinical Sciences, Neurodegenerative, Neurosciences, Autoimmune Disease, Aging, Brain Disorders, Multiple Sclerosis, Estrogen, Neurological, Adult, Biomarkers, Estriol, Estrogens, Female, Humans, Intermediate Filaments, Pregnancy, Clinical Sciences, Clinical and health psychology

Abstract

Estrogens have neuroprotective actions depending on estrogen type, dose, and timing in both preclinical models and in women during health and disease. Serum neurofilament light chain is a putative biomarker of neurodegeneration in multiple sclerosis, aging, and other neurodegenerative diseases. Here, oral treatment with an estrogen unique to pregnancy (estriol) using an 8 mg dose to induce a mid-pregnancy blood estriol level reduced serum neurofilament light chain in nonpregnant MS women at mean age of 37 years. This is consistent with estriol-mediated protection from neuro-axonal injury and supports the use of serum neurofilament light chain as a biomarker in MS.

Published

2022

21. Lower White Matter Volume and Worse Executive Functioning Reflected in Higher Levels of Plasma GFAP among Older Adults with and Without Cognitive Impairment

Author

Asken, Breton M, VandeVrede, Lawren, Rojas, Julio C, Fonseca, Corrina, Staffaroni, Adam M, Elahi, Fanny M, Lindbergh, Cutter A, Apple, Alexandra C, You, Michelle, Weiner-Light, Sophia, Brathaban, Nivetha, Fernandes, Nicole, Boxer, Adam L, Miller, Bruce L, Rosen, Howie J, Kramer, Joel H, and Casaletto, Kaitlin B

Subjects

Biological Psychology, Psychology, Clinical Research, Brain Disorders, Neurodegenerative, Alzheimer's Disease, Aging, Acquired Cognitive Impairment, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Neurosciences, Dementia, Neurological, Mental health, Aged, Aged, 80 and over, Alzheimer Disease, Biomarkers, Cognitive Dysfunction, Executive Function, Glial Fibrillary Acidic Protein, Humans, Intermediate Filaments, Middle Aged, Neurodegenerative Diseases, Neurofilament Proteins, White Matter, Glial fibrillary acidic protein, Astrocyte, Alzheimer's, Alzheimer’s, Medical and Health Sciences, Psychology and Cognitive Sciences, Experimental Psychology, Biomedical and clinical sciences, Health sciences

Abstract

ObjectiveThere are minimal data directly comparing plasma neurofilament light (NfL) and glial fibrillary acidic protein (GFAP) in aging and neurodegenerative disease research. We evaluated associations of plasma NfL and plasma GFAP with brain volume and cognition in two independent cohorts of older adults diagnosed as clinically normal (CN), mild cognitive impairment (MCI), or Alzheimer's dementia.MethodsWe studied 121 total participants (Cohort 1: n = 50, age 71.6 ± 6.9 years, 78% CN, 22% MCI; Cohort 2: n = 71, age 72.2 ± 9.2 years, 45% CN, 25% MCI, 30% dementia). Gray and white matter volumes were obtained for total brain and broad subregions of interest (ROIs). Neuropsychological testing evaluated memory, executive functioning, language, and visuospatial abilities. Plasma samples were analyzed in duplicate for NfL and GFAP using single molecule array assays (Quanterix Simoa). Linear regression models with structural MRI and cognitive outcomes included plasma NfL and GFAP simultaneously along with relevant covariates.ResultsHigher plasma GFAP was associated with lower white matter volume in both cohorts for temporal (Cohort 1: β = -0.33, p = .002; Cohort 2: β = -0.36, p = .03) and parietal ROIs (Cohort 1: β = -0.31, p = .01; Cohort 2: β = -0.35, p = .04). No consistent findings emerged for gray matter volumes. Higher plasma GFAP was associated with lower executive function scores (Cohort 1: β = -0.38, p = .01; Cohort 2: β = -0.36, p = .007). Plasma NfL was not associated with gray or white matter volumes, or cognition after adjusting for plasma GFAP.ConclusionsPlasma GFAP may be more sensitive to white matter and cognitive changes than plasma NfL. Biomarkers reflecting astroglial pathophysiology may capture complex dynamics of aging and neurodegenerative disease.

Published

2022

22. Transcriptional Evaluation of the Ductus Arteriosus at the Single-Cell Level Uncovers a Requirement for Vim (Vimentin) for Complete Closure

Author

Salvador, Jocelynda, Hernandez, Gloria E, Ma, Feiyang, Abrahamson, Cyrus W, Pellegrini, Matteo, Goldman, Robert, Ridge, Karen M, and Iruela-Arispe, M Luisa

Subjects

Biomedical and Clinical Sciences, Cardiovascular Medicine and Haematology, Cardiovascular, Heart Disease, Aetiology, 2.1 Biological and endogenous factors, Animals, Ductus Arteriosus, Ductus Arteriosus, Patent, Humans, Intermediate Filaments, Mice, RNA, Vascular Remodeling, Vimentin, ductus arteriosus, endothelium, prostaglandin, vascular remodeling, vimentin, Cardiorespiratory Medicine and Haematology, Clinical Sciences, Cardiovascular System & Hematology, Cardiovascular medicine and haematology, Clinical sciences

Abstract

ObjectiveFailure to close the ductus arteriosus, patent ductus arteriosus, accounts for 10% of all congenital heart defects. Despite significant advances in patent ductus arteriosus management, including pharmacological treatment targeting the prostaglandin pathway, a proportion of patients fail to respond and must undergo surgical intervention. Thus, further refinement of the cellular and molecular mechanisms that govern vascular remodeling of this vessel is required.MethodsWe performed single-cell RNA-sequencing of the ductus arteriosus in mouse embryos at E18.5 (embryonic day 18.5), and P0.5 (postnatal day 0.5), and P5 to identify transcriptional alterations that might be associated with remodeling. We further confirmed our findings using transgenic mouse models coupled with immunohistochemistry analysis.ResultsThe intermediate filament vimentin emerged as a candidate that might contribute to closure of the ductus arteriosus. Indeed, mice with genetic deletion of vimentin fail to complete vascular remodeling of the ductus arteriosus. To seek mechanisms, we turned to the RNA-sequencing data that indicated changes in Jagged1 with similar profile to vimentin and pointed to potential links with Notch. In fact, Notch3 signaling was impaired in vimentin null mice and vimentin null mice phenocopies patent ductus arteriosus in Jagged1 endothelial and smooth muscle deleted mice.ConclusionsThrough single-cell RNA-sequencing and by tracking closure of the ductus arteriosus in mice, we uncovered the unexpected contribution of vimentin in driving complete closure of the ductus arteriosus through a mechanism that includes deregulation of the Notch signaling pathway.

Published

2022

23. Desmin and its molecular chaperone, the αB-crystallin: How post-translational modifications modulate their functions in heart and skeletal muscles?

Author

Claeyssen, Charlotte, Bulangalire, Nathan, Bastide, Bruno, Agbulut, Onnik, and Cieniewski-Bernard, Caroline

Subjects

*MOLECULAR chaperones, *MYOCARDIUM, *SKELETAL muscle, *ORGANELLE formation, *HOMEOSTASIS, *HEAT shock proteins, *POST-translational modification, *CELL adhesion

Abstract

Maintenance of the highly organized striated muscle tissue requires a cell-wide dynamic network through protein-protein interactions providing an effective mechanochemical integrator of morphology and function. Through a continuous and complex trans -cytoplasmic network, desmin intermediate filaments ensure this essential role in heart and in skeletal muscle. Besides their role in the maintenance of cell shape and architecture (permitting contractile activity efficiency and conferring resistance towards mechanical stress), desmin intermediate filaments are also key actors of cell and tissue homeostasis. Desmin participates to several cellular processes such as differentiation, apoptosis, intracellular signalisation, mechanotransduction, vesicle trafficking, organelle biogenesis and/or positioning, calcium homeostasis, protein homeostasis, cell adhesion, metabolism and gene expression. Desmin intermediate filaments assembly requires αB-crystallin, a small heat shock protein. Over its chaperone activity, αB-crystallin is involved in several cellular functions such as cell integrity, cytoskeleton stabilization, apoptosis, autophagy, differentiation, mitochondria function or aggresome formation. Importantly, both proteins are known to be strongly associated to the aetiology of several cardiac and skeletal muscles pathologies related to desmin filaments disorganization and a strong disturbance of desmin interactome. Note that these key proteins of cytoskeleton architecture are extensively modified by post-translational modifications that could affect their functional properties. Therefore, we reviewed in the herein paper the impact of post-translational modifications on the modulation of cellular functions of desmin and its molecular chaperone, the αB-crystallin. • Desmin IFs are key actors of muscle homeostasis; αB-crystallin its molecular chaperone, ensures their proper assembly. • Both proteins are strongly linked to the aetiology of numerous cardiac and skeletal muscle diseases. • Both are highly modified by PTMs, in particular phosphorylation and O-GlcNAcylation, regulating their functions. • αB-Crystallin emerges as a new great therapeutic tool against protein aggregation and the resulting proteotoxicity. • Considering PTMs opens a new research field in the world of molecular chaperones and their target proteins. [ABSTRACT FROM AUTHOR]

Published

2024

24. Neurofilaments in health and Charcot-Marie-Tooth disease.

Author

Kotaich, Farah, Caillol, Damien, and Bomont, Pascale

Subjects

CHARCOT-Marie-Tooth disease, PERIPHERAL nervous system, CYTOPLASMIC filaments, RNA-binding proteins, CENTRAL nervous system, CENTRAL nervous system injuries

Abstract

Neurofilaments (NFs) are the most abundant component of mature neurons, that interconnect with actin and microtubules to form the cytoskeleton. Specifically expressed in the nervous system, NFs present the particularity within the Intermediate Filament family of being formed by four subunits, the neurofilament light (NF-L), medium (NF-M), heavy (NF-H) proteins and a-internexin or peripherin. Here, we review the current knowledge on NF proteins and neurofilaments, from their domain structures and their model of assembly to the dynamics of their transport and degradation along the axon. The formation of the filament and its behaviour are regulated by various determinants, including post-transcriptional (miRNA and RBP proteins) and post-translational (phosphorylation and ubiquitination) modifiers. Altogether, the complex set of modifications enable the neuron to establish a stable but elastic NF array constituting the structural scaffold of the axon, while permitting the local expression of NF proteins and providing the dynamics necessary to fulfil local demands and respond to stimuli and injury. Thus, in addition to their roles in mechano-resistance, radial axonal outgrowth and nerve conduction, NFs control microtubule dynamics, organelle distribution and neurotransmission at the synapse. We discuss how the studies of neurodegenerative diseases with NF aggregation shed light on the biology of NFs. In particular, the NEFL and NEFH genes are mutated in Charcot-Marie-Tooth (CMT) disease, the most common inherited neurological disorder of the peripheral nervous system. The clinical features of the CMT forms (axonal CMT2E, CMT2CC; demyelinating CMT1F; intermediate I-CMT) with symptoms affecting the central nervous system (CNS) will allow us to further investigate the physiological roles of NFs in the brain. Thus, NF-CMT mouse models exhibit various degrees of sensory-motor deficits associated with CNS symptoms. Cellular systems brought findings regarding the dominant effect of NF-L mutants on NF aggregation and transport, although these have been recently challenged. Neurofilament detection without NF-L in recessive CMT is puzzling, calling for a reexamination of the current model in which NF-L is indispensable for NF assembly. Overall, we discuss how the fundamental and translational fields are feeding each-other to increase but also challenge our knowledge of NF biology, and to develop therapeutic avenues for CMT and neurodegenerative diseases with NF aggregation. [ABSTRACT FROM AUTHOR]

Published

2024

25. Associations between prognostic index scores and plasma neurofilament light in Huntington's disease

Author

Parkin, Georgia M, Corey-Bloom, Jody, Long, Jeffrey D, Snell, Chase, Smith, Haileigh, and Thomas, Elizabeth A

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Huntington's Disease, Neurosciences, Neurodegenerative, Rare Diseases, Brain Disorders, Disease Progression, Humans, Huntington Disease, Intermediate Filaments, Neurofilament Proteins, Prognosis, Huntington 's disease, Neurofilament light, Plasma, Blood, Biomarker, Huntington's disease, Cognitive Sciences, Neurology & Neurosurgery, Clinical sciences, Biological psychology

Abstract

IntroductionThe inclusion of premanifest Huntington's Disease (Pre-HD) subjects in clinical trials necessitates selecting those who are near transition to manifest Huntington's disease (Man-HD). We previously determined that plasma neurofilament light (NfL) levels are significantly correlated with predicted years to Man-HD onset, using established formulae. Recently, a new normalized prognostic index (PIN) score for predicting Pre-HD disease progression has been validated. Our objective was to determine whether plasma NfL levels are similarly associated with PIN score and PIN score-derived years to Man-HD onset (PIN-YTO).Method112 individuals (46 Pre-HD, 66 Man-HD) underwent blood sample collection and clinical assessment, inclusive of the Symbol Digit Modalities Test and Unified Huntington's Disease Rating Scale Total Motor Score. Plasma NfL levels were measured using a Meso Scale Discovery assay.ResultsPre-HD and Man-HD cohorts differed by age (p 10 predicted years from Man-HD onset, compared to those ≤10 predicted years.ConclusionsWe have extensively shown that plasma NfL levels are associated with predicted years to manifest HD onset in Pre-HD participants, and present a plasma NfL cut-point that may help exclude far-from-onset Pre-HD patients from clinical trials.

Published

2022

26. Comprehensive cross-sectional and longitudinal analyses of plasma neurofilament light across FTD spectrum disorders

Author

Gendron, Tania F, Heckman, Michael G, White, Launia J, Veire, Austin M, Pedraza, Otto, Burch, Alexander R, Bozoki, Andrea C, Dickerson, Bradford C, Domoto-Reilly, Kimiko, Foroud, Tatiana, Forsberg, Leah K, Galasko, Douglas R, Ghoshal, Nupur, Graff-Radford, Neill R, Grossman, Murray, Heuer, Hilary W, Huey, Edward D, Hsiung, Ging-Yuek R, Irwin, David J, Kaufer, Daniel I, Leger, Gabriel C, Litvan, Irene, Masdeu, Joseph C, Mendez, Mario F, Onyike, Chiadi U, Pascual, Belen, Ritter, Aaron, Roberson, Erik D, Rojas, Julio C, Tartaglia, Maria Carmela, Wszolek, Zbigniew K, Rosen, Howard, Boeve, Bradley F, Boxer, Adam L, consortium, ALLFTD, Appleby, Brian S, Barmada, Sami, Bordelon, Yvette, Botha, Hugo, Brushaber, Danielle, Clark, David, Coppola, Giovanni, Darby, Ryan, Devick, Katrina, Dickson, Dennis, Faber, Kelley, Fagan, Anne, Fields, Julie A, Gavrilova, Ralitza, Geschwind, Daniel, Goldman, Jill, Graff-Radford, Jonathon, Grant, Ian, Jones, David T, Kantarci, Kejal, Kerwin, Diana, Knopman, David S, Kornak, John, Kremers, Walter, Lapid, Maria, Lago, Argentina Lario, Ljubenkov, Peter, Lucente, Diane, Mackenzie, Ian R, McGinnis, Scott, Mester, Carly, Miller, Bruce L, Pressman, Peter, Rademakers, Rosa, Ramanan, Vijay K, Ramos, E Marisa, Rankin, Katherine P, Rao, Meghana, Rascovsky, Katya, Savica, Rodolfo, Seeley, William, Staffaroni, Adam M, Syrjanen, Jeremy, Taylor, Jack, VandeVrede, Lawren, Weintraub, Sandra, Wong, Bonnie, and Petrucelli, Leonard

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Clinical Research, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Rare Diseases, Dementia, Brain Disorders, Prevention, Acquired Cognitive Impairment, Neurodegenerative, Frontotemporal Dementia (FTD), 4.1 Discovery and preclinical testing of markers and technologies, Detection, screening and diagnosis, Good Health and Well Being, Cross-Sectional Studies, Frontotemporal Dementia, Humans, Intermediate Filaments, Neurofilament Proteins, Pick Disease of the Brain, Syndrome, ALLFTD consortium, Richardson’s syndrome, behavioral variant frontotemporal dementia, biomarker, corticobasal syndrome, neurofilament light, plasma, presymptomatic, primary progressive aphasia, progressive supranuclear palsy, Biomedical and clinical sciences

Abstract

Frontotemporal dementia (FTD) therapy development is hamstrung by a lack of susceptibility, diagnostic, and prognostic biomarkers. Blood neurofilament light (NfL) shows promise as a biomarker, but studies have largely focused only on core FTD syndromes, often grouping patients with different diagnoses. To expedite the clinical translation of NfL, we avail ARTFL LEFFTDS Longitudinal Frontotemporal Lobar Degeneration (ALLFTD) study resources and conduct a comprehensive investigation of plasma NfL across FTD syndromes and in presymptomatic FTD mutation carriers. We find plasma NfL is elevated in all studied syndromes, including mild cases; increases in presymptomatic mutation carriers prior to phenoconversion; and associates with indicators of disease severity. By facilitating the identification of individuals at risk of phenoconversion, and the early diagnosis of FTD, plasma NfL can aid in participant selection for prevention or early treatment trials. Moreover, its prognostic utility would improve patient care, clinical trial efficiency, and treatment outcome estimations.

Published

2022

27. Association of neurofilament light chain with renal function: mechanisms and clinical implications

Author

Tang, Rongxiang, Panizzon, Matthew S, Elman, Jeremy A, Gillespie, Nathan A, Hauger, Richard L, Rissman, Robert A, Lyons, Michael J, Neale, Michael C, Reynolds, Chandra A, Franz, Carol E, and Kremen, William S

Subjects

Biomedical and Clinical Sciences, Neurosciences, Brain Disorders, Clinical Research, Kidney Disease, Prevention, Neurodegenerative, 4.1 Discovery and preclinical testing of markers and technologies, Detection, screening and diagnosis, Male, Humans, Aged, Intermediate Filaments, Creatinine, Biomarkers, Brain, Kidney, Neurofilament light chain, Renal function, Neurodegeneration, Blood-based biomarker, Neurodegenerative diseases, Biometrical twin modeling, Alzheimer’s Disease Neuroimaging Initiative, Medical and Health Sciences, Biomedical and clinical sciences, Health sciences

Abstract

BackgroundBlood-based neurofilament light chain (NfL) is a promising biomarker of neurodegeneration across multiple neurodegenerative diseases. However, blood-based NfL is highly associated with renal function in older adults, which leads to the concern that blood-based NfL levels may be influenced by renal function, rather than neurodegeneration alone. Despite growing interest in using blood-based NfL as a biomarker of neurodegeneration in research and clinical practices, whether renal function should always be accounted for in these settings remains unclear. Moreover, the mechanisms underlying this association between blood-based measures of NfL and renal function remain elusive. In this study, we first evaluated the effect of renal function on the associations of plasma NfL with other measures of neurodegeneration. We then examined the extent of genetic and environmental contributions to the association between plasma NfL and renal function.MethodsIn a sample of 393 adults (mean age=75.22 years, range=54-90), we examined the associations of plasma NfL with cerebrospinal fluid (CSF) NfL and brain volumetric measures before and after adjusting for levels of serum creatinine (an index of renal function). In an independent sample of 969 men (mean age=67.57 years, range=61-73) that include monozygotic and dizygotic twin pairs, we replicated the same analyses and leveraged biometrical twin modeling to examine the genetic and environmental influences on the plasma NfL and creatinine association.ResultsPlasma NfL's associations with cerebrospinal fluid NfL and brain volumetric measures did not meaningfully change after adjusting for creatinine levels. Both plasma NfL and creatinine were significantly heritable (h2=0.54 and 0.60, respectively). Their phenotypic correlation (r=0.38) was moderately explained by shared genetic influences (genetic correlation=0.46) and unique environmental influences (unique environmental correlation=0.27).ConclusionsAdjusting for renal function is unnecessary when assessing associations between plasma NfL and other measures of neurodegeneration but is necessary if plasma NfL is compared to a cutoff for classifying neurodegeneration-positive versus neurodegeneration-negative individuals. Blood-based measures of NfL and renal function are heritable and share common genetic influences.

Published

2022

28. Prognostic Value of Serum Neurofilament Light Chain for Disease Activity and Worsening in Patients With Relapsing Multiple Sclerosis: Results From the Phase 3 ASCLEPIOS I and II Trials

Author

Ziemssen, Tjalf, Arnold, Douglas L, Alvarez, Enrique, Cross, Anne H, Willi, Roman, Li, Bingbing, Kukkaro, Petra, Kropshofer, Harald, Ramanathan, Krishnan, Merschhemke, Martin, Kieseier, Bernd, Su, Wendy, Häring, Dieter A, Hauser, Stephen L, Kappos, Ludwig, and Kuhle, Jens

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Clinical Research, Neurosciences, Clinical Trials and Supportive Activities, Gray Matter, Humans, Intermediate Filaments, Multiple Sclerosis, Prognosis, Recurrence, serum neurofilament light chain, prognostic biomarker, MS disease activity, lesion formation, brain atrophy, Immunology, Medical Microbiology, Biochemistry and cell biology, Genetics

Abstract

ObjectiveThis study aims to confirm the prognostic value of baseline serum neurofilament light chain (sNfL) for on-study disease activity and worsening in patients with relapsing MS (RMS).BackgroundPrevious post-hoc studies suggested that sNfL could be a prognostic biomarker in RMS. In the phase 3 ASCLEPIOS I/II trials in which ofatumumab demonstrated better efficacy outcomes than teriflunomide, treatment with ofatumumab also led to significantly reduced sNfL levels compared to teriflunomide treatment.Design/methodsIn this study, we report protocol-planned analyses from the pooled ASCLEPIOS I/II trials (N=1882). Per protocol, patients were stratified by median baseline sNfL levels (9.3 pg/ml) into high (>median) and low (≤median) categories to prognosticate: annualized rate of new/enlarging T2 (neT2) lesions in year 1 and 2, annualized relapse rate, annual percentage change in whole brain (WB) and regional brain volume [thalamus, white matter (WM), cortical gray matter (cGM)], and disability outcomes. Similar analyses were performed for the recently diagnosed (within 3 years), treatment-naive patients (no prior disease-modifying therapy) subgroup.ResultsHigh versus low sNfL at baseline was prognostic of increased on-study T2 lesion formation at year 1 (relative increase: ofatumumab +158%; teriflunomide +69%, both p

Published

2022

29. Salivary S100 calcium-binding protein beta (S100B) and neurofilament light (NfL) after acute exposure to repeated head impacts in collegiate water polo players

Author

Monroe, Derek C, Thomas, Elizabeth A, Cecchi, Nicholas J, Granger, Douglas A, Hicks, James W, and Small, Steven L

Subjects

Biomedical and Clinical Sciences, Commercial Services, Commerce, Management, Tourism and Services, Brain Disorders, Physical Injury - Accidents and Adverse Effects, Clinical Research, Traumatic Head and Spine Injury, Neurosciences, Traumatic Brain Injury (TBI), Athletes, Biomarkers, Brain Concussion, Female, Humans, Intermediate Filaments, Male, S100 Calcium Binding Protein beta Subunit, Water Sports

Abstract

Blood-based biomarkers of brain injury may be useful for monitoring brain health in athletes at risk for concussions. Two putative biomarkers of sport-related concussion, neurofilament light (NfL), an axonal structural protein, and S100 calcium-binding protein beta (S100B), an astrocyte-derived protein, were measured in saliva, a biofluid which can be sampled in an athletic setting without the risks and burdens associated with blood sampled by venipuncture. Samples were collected from men's and women's collegiate water polo players (n = 65) before and after a competitive tournament. Head impacts were measured using sensors previously evaluated for use in water polo, and video recordings were independently reviewed for the purpose of validating impacts recorded by the sensors. Athletes sustained a total of 107 head impacts, all of which were asymptomatic (i.e., no athlete was diagnosed with a concussion or more serious). Post-tournament salivary NfL was directly associated with head impact frequency (RR = 1.151, p = 0.025) and cumulative head impact magnitude (RR = 1.008, p = 0.014), while controlling for baseline salivary NfL. Change in S100B was not associated with head impact exposure (RR  0.483). These patterns suggest that repeated head impacts may cause axonal injury, even in asymptomatic athletes.

Published

2022

30. Coronavirus and the Cytoskeleton of Virus-Infected Cells

Author

Xing, Yifan, Zhang, Qian, Jiu, Yaming, Harris, J. Robin, Series Editor, Kundu, Tapas K., Advisory Editor, Korolchuk, Viktor, Advisory Editor, Bolanos-Garcia, Victor, Advisory Editor, Marles-Wright, Jon, Advisory Editor, Vijayakrishnan, Swetha, editor, and Jiu, Yaming, editor

Published

2023

31. Plasma neurofilament light chain concentrations as a biomarker of clinical and radiologic outcomes in relapsing multiple sclerosis: Post hoc analysis of Phase 3 ozanimod trials

Author

Harris, Sarah, Comi, Giancarlo, Cree, Bruce AC, Arnold, Douglas L, Steinman, Lawrence, Sheffield, James K, Southworth, Harry, Kappos, Ludwig, Cohen, Jeffrey A, and Investigators, the Ozanimod Study

Subjects

Biomedical and Clinical Sciences, Neurosciences, Clinical Sciences, Clinical Research, Clinical Trials and Supportive Activities, Cancer, Biomarkers, Double-Blind Method, Humans, Indans, Interferon beta-1a, Intermediate Filaments, Magnetic Resonance Imaging, Multiple Sclerosis, Multiple Sclerosis, Relapsing-Remitting, Oxadiazoles, Recurrence, blood biomarkers, multiple sclerosis, neurofilament light, relapse, treatment outcome, Ozanimod Study Investigators, Neurology & Neurosurgery, Clinical sciences

Abstract

Background and purposeWe investigated plasma neurofilament light chain concentration (pNfL) as a biomarker for neuroaxonal damage and disease activity using data from Phase 3 trials of ozanimod in relapsing multiple sclerosis (RMS).MethodspNfL was measured before and after ozanimod 0.46 mg or 0.92 mg daily or interferon β-1a 30 µg weekly in the randomized, double-blind SUNBEAM and RADIANCE trials. In these post hoc analyses, we investigated relationships between pNfL (at baseline and median percentage change from baseline to Month 12 [SUNBEAM] or 24 [RADIANCE]) and clinical and magnetic resonance imaging outcomes.ResultsMedian (Q1, Q3) baseline pNfL, available in 1244 of 1346 SUNBEAM participants, was 14.70 (10.16, 23.26) pg/ml and in 1109 of 1313 RADIANCE participants was 13.35 (9.42, 20.41) pg/ml. Baseline gadolinium-enhancing (GdE) and T2 lesion counts increased and brain volume decreased with increasing baseline pNfL. Baseline pNfL was higher in those with versus without on-treatment relapse. Median percentage reduction in pNfL at 12 months in SUNBEAM (n = 1238) and 24 months in RADIANCE (n = 1088) was greater for ozanimod (20%-27%) than interferon β-1a (13%-16%; p

Published

2021

32. Serum phosphorylated neurofilament heavy chain as a diagnostic biomarker for progressive myelomalacia in dogs with thoracolumbar intervertebral disc herniation.

Author

Murthy, Vishal D, Li, Chai-Fei, Hicks, Jill, Kroll, Jacqueline, Giuffrida, Michelle, Dickinson, Peter, and Toedebusch, Christine M

Subjects

Intermediate Filaments, Animals, Dogs, Spinal Cord Diseases, Dog Diseases, Cohort Studies, Prospective Studies, Intervertebral Disc Displacement, Intervertebral Disc, Biomarkers, canine, chondrodystrophy, myelopathy, prognosis, spinal cord injury, Veterinary Sciences

Abstract

BackgroundSerum phosphorylated neurofilament-heavy chain (pNF-H) has not been longitudinally evaluated in dogs that develop progressive myelomalacia (PMM) after Type I intervertebral disc herniation (IVDH).ObjectivesTo determine if serum pNF-H concentrations would predict outcome of neuroligical disease in dogs with acute, severe thoracolumbar myelopathy secondary to Type I IVDH.AnimalsThirty-nine client-owned dogs with thoracolumbar myelopathy secondary to IVDH.MethodsProspective controlled cohort study. Serum was collected from dogs undergoing hemilaminectomy at multiple timepoints. Final neurological status was established at 12 months and groups were stratified accordingly. Comparisons between outcome and pNF-H concentration at each timepoint was examined using Kruskal-Wallis analysis of variance on ranks and receiver operator characteristics curve analysis.ResultsMedian serum pNF-H concentrations were not significantly different between deep pain negative dogs that did or did not recover at any timepoint (baseline: 0.37 ng/mL [0-0.9 ng/mL] vs 0 ng/mL [0-0.9 ng/mL], P > 1; 24 hours: 1.25 ng/mL [0.35-7.23 ng/mL] vs 1.53 ng/mL [0-11.94 ng/mL], P > 1; 48 hours: 1.22 ng/mL [0.63-6.62 ng/mL] vs 2.12 ng/mL [0-20.72 ng/mL], P >  1; 72 hours: 2.77 ng/mL [1.33-6.62 ng/mL] vs 16.69 ng/mL [4.02-40.12 ng/mL], P >  1). Dogs that developed PMM had significantly higher serum pNF-H concentrations after surgery compared to all other cohorts at 24 hours: 39.88 ng/mL (25.74-50.68 ng/mL); P

Published

2021

33. Characters of KRT80 and its roles in neoplasms diseases

Author

Xin‐Yuan Wei, Jie Zhao, Hao‐Bin Tong, Shang‐Jie Cheng, Na He, and Fei‐Xue Song

Subjects

cancers, intermediate filaments, keratin, KRT80, mechanism, neoplasms, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background KRT80 is a human epithelial intermediate filament type II gene; its expression product is a component of intracellular intermediate filaments (IFs) and is involved in the assembly of the cytoskeleton. There is evidence that IFs form a dense network mainly in the perinuclear area, but they can also reach the cortex. They are essential for mechanical cushioning of cells, organelle positioning, cell apoptosis, migration, adhesion, and interactions with other cytoskeletal components. Humans possess 54 functional keratin genes, and KRT80 is one of the more unique genes. It is widely expressed in almost all epithelial cells, although it is structurally more similar to type II hair keratins than to type II epithelial keratins. Aim In this review, we summarize the basic facts about the keratin family and KRT80, the essential role of KRT80 in neoplasms, and its potential as a therapeutic target. We hope that this review will inspire researchers to at least partially focus on this area. Result In many neoplastic diseases, the high expression status of KRT80 and its role in regulating the biological functions of cancer cells have been well established. KRT80 can effectively enhance the proliferation, invasiveness and migration of cancer cells. However, the effects of KRT80 on prognosis and clinically relevant indices in patients with various cancers have not been extensively studied, and even opposite conclusions have been reached in different studies of the same cancer. Based on this, we should add more clinically relevant studies to clarify the prospect of clinical application of KRT80. Many researchers have made great progress in studying the mechanism of action of KRT80. However, their studies should be extended to more cancers to find common regulators and signaling pathways of KRT80 in different cancers. KRT80 may have far‐reaching effects on the human body, and this marker may play a crucial role in the function of cancer cells and the prognosis of cancer patients, so it has a promising future in the field of neoplasms. Conclusion In neoplastic diseases, KRT80 is overexpressed in many cancers and plays an essential role in promoting proliferation, migration, invasiveness and poor prognosis. The mechanisms of KRT80 functions in cancer have been partially elucidated, suggesting that KRT80 is a potentially useful cancer therapeutic target. However, more systematic, in‐depth and comprehensive studies are still needed in this field.

Published

2023

34. The intermediate filament protein nestin serves as a molecular hub for smooth muscle cytoskeletal signaling

Author

Yinna Wang, Guoning Liao, Yidi Wu, Ruping Wang, and Dale D. Tang

Subjects

Smooth muscle contraction, Actin, Intermediate filaments, Protein phosphorylation, Diseases of the respiratory system, RC705-779

Abstract

Abstract Background The recruitment of the actin-regulatory proteins cortactin and profilin-1 (Pfn-1) to the membrane is important for the regulation of actin cytoskeletal reorganization and smooth muscle contraction. Polo-like kinase 1 (Plk1) and the type III intermediate filament protein vimentin are involved in smooth muscle contraction. Regulation of complex cytoskeletal signaling is not entirely elucidated. The aim of this study was to evaluate the role of nestin (a type VI intermediate filament protein) in cytoskeletal signaling in airway smooth muscle. Methods Nestin expression in human airway smooth muscle (HASM) was knocked down by specific shRNA or siRNA. The effects of nestin knockdown (KD) on the recruitment of cortactin and Pfn-1, actin polymerization, myosin light chain (MLC) phosphorylation, and contraction were evaluated by cellular and physiological approaches. Moreover, we assessed the effects of non-phosphorylatable nestin mutant on these biological processes. Results Nestin KD reduced the recruitment of cortactin and Pfn-1, actin polymerization, and HASM contraction without affecting MLC phosphorylation. Moreover, contractile stimulation enhanced nestin phosphorylation at Thr-315 and the interaction of nestin with Plk1. Nestin KD also diminished phosphorylation of Plk1 and vimentin. The expression of T315A nestin mutant (alanine substitution at Thr-315) reduced the recruitment of cortactin and Pfn-1, actin polymerization, and HASM contraction without affecting MLC phosphorylation. Furthermore, Plk1 KD diminished nestin phosphorylation at this residue. Conclusions Nestin is an essential macromolecule that regulates actin cytoskeletal signaling via Plk1 in smooth muscle. Plk1 and nestin form an activation loop during contractile stimulation.

Published

2023

35. Plectin plays a role in the migration and volume regulation of astrocytes: a potential biomarker of glioblastoma

Author

Žugec, Maja, Furlani, Borut, Castañon, Maria J., Rituper, Boštjan, Fischer, Irmgard, Broggi, Giuseppe, Caltabiano, Rosario, Barbagallo, Giuseppe M. V., Di Rosa, Michelino, Tibullo, Daniele, Parenti, Rosalba, Vicario, Nunzio, Simčič, Saša, Pozo Devoto, Victorio Martin, Stokin, Gorazd B., Wiche, Gerhard, Jorgačevski, Jernej, Zorec, Robert, and Potokar, Maja

Published

2024

36. Neurofilaments in health and Charcot-Marie-Tooth disease

Author

Farah Kotaich, Damien Caillol, and Pascale Bomont

Subjects

neurofilament, cytoskeleton, intermediate filaments, Charcot-Marie-Tooth disease, CMT, neurodegenerative diseases, Biology (General), QH301-705.5

Abstract

Neurofilaments (NFs) are the most abundant component of mature neurons, that interconnect with actin and microtubules to form the cytoskeleton. Specifically expressed in the nervous system, NFs present the particularity within the Intermediate Filament family of being formed by four subunits, the neurofilament light (NF-L), medium (NF-M), heavy (NF-H) proteins and α-internexin or peripherin. Here, we review the current knowledge on NF proteins and neurofilaments, from their domain structures and their model of assembly to the dynamics of their transport and degradation along the axon. The formation of the filament and its behaviour are regulated by various determinants, including post-transcriptional (miRNA and RBP proteins) and post-translational (phosphorylation and ubiquitination) modifiers. Altogether, the complex set of modifications enable the neuron to establish a stable but elastic NF array constituting the structural scaffold of the axon, while permitting the local expression of NF proteins and providing the dynamics necessary to fulfil local demands and respond to stimuli and injury. Thus, in addition to their roles in mechano-resistance, radial axonal outgrowth and nerve conduction, NFs control microtubule dynamics, organelle distribution and neurotransmission at the synapse. We discuss how the studies of neurodegenerative diseases with NF aggregation shed light on the biology of NFs. In particular, the NEFL and NEFH genes are mutated in Charcot-Marie-Tooth (CMT) disease, the most common inherited neurological disorder of the peripheral nervous system. The clinical features of the CMT forms (axonal CMT2E, CMT2CC; demyelinating CMT1F; intermediate I-CMT) with symptoms affecting the central nervous system (CNS) will allow us to further investigate the physiological roles of NFs in the brain. Thus, NF-CMT mouse models exhibit various degrees of sensory-motor deficits associated with CNS symptoms. Cellular systems brought findings regarding the dominant effect of NF-L mutants on NF aggregation and transport, although these have been recently challenged. Neurofilament detection without NF-L in recessive CMT is puzzling, calling for a re-examination of the current model in which NF-L is indispensable for NF assembly. Overall, we discuss how the fundamental and translational fields are feeding each-other to increase but also challenge our knowledge of NF biology, and to develop therapeutic avenues for CMT and neurodegenerative diseases with NF aggregation.

Published

2023

37. Scaffold, mechanics and functions of nuclear lamins.

Author

Buxboim, Amnon, Kronenberg‐Tenga, Rafael, Salajkova, Sarka, Avidan, Nili, Shahak, Hen, Thurston, Alice, and Medalia, Ohad

Subjects

*NUCLEAR membranes, *INTERMEDIATE filament proteins, *LAMINS, *CYTOPLASMIC filaments, *PREMATURE aging (Medicine), *GENETIC regulation

Abstract

Nuclear lamins are type‐V intermediate filaments that are involved in many nuclear processes. In mammals, A‐ and B‐type lamins assemble into separate physical meshwork underneath the inner nuclear membrane, the nuclear lamina, with some residual fraction localized within the nucleoplasm. Lamins are the major part of the nucleoskeleton, providing mechanical strength and flexibility to protect the genome and allow nuclear deformability, while also contributing to gene regulation via interactions with chromatin. While lamins are the evolutionary ancestors of all intermediate filament family proteins, their ultimate filamentous assembly is markedly different from their cytoplasmic counterparts. Interestingly, hundreds of genetic mutations in the lamina proteins have been causally linked with a broad range of human pathologies, termed laminopathies. These include muscular, neurological and metabolic disorders, as well as premature aging diseases. Recent technological advances have contributed to resolving the filamentous structure of lamins and the corresponding lamina organization. In this review, we revisit the multiscale lamin organization and discuss its implications on nuclear mechanics and chromatin organization within lamina‐associated domains. [ABSTRACT FROM AUTHOR]

Published

2023

38. Accuracy of serum neurofilament light to identify contrast-enhancing lesions in multiple sclerosis.

Author

Bose, Gauruv, Healy, Brian C, Barro, Christian, Moreira Ferreira, Vanessa F, Saxena, Shrishti, Glanz, Bonnie I, Lokhande, Hrishikesh A, Polgar-Turcsanyi, Mariann, Bakshi, Rohit, Weiner, Howard L, and Chitnis, Tanuja

Subjects

*GLIAL fibrillary acidic protein, *MULTIPLE sclerosis, *CYTOPLASMIC filaments, *MAGNETIC resonance imaging

Abstract

Background: Contrast-enhancing magnetic resonance imaging (MRI) lesions (CELs) indicate acute multiple sclerosis inflammation. Serum biomarkers, neurofilament light (sNfL), and glial fibrillary acidic protein (sGFAP) may increase in the presence of CELs, and indicate a need to perform MRI. Objective: We assessed the accuracy of biomarkers to detect CELs. Methods: Patients with two gadolinium-enhanced MRIs and serum biomarkers tested within 3 months were included (N = 557, 66% female). Optimal cut-points from Bland–Altman analysis for spot biomarker level and Youden's index for delta-change from remission were evaluated. Results: A total of 116 patients (21%) had CELs. A spot sNfL measurement >23.0 pg/mL corresponded to 7.0 times higher odds of CEL presence (95% CI: 3.8, 12.8), with 25.9% sensitivity, 95.2% specificity, operating characteristic curve (AUC) 0.61; while sNfL delta-change >30.8% from remission corresponded to 5.0 times higher odds (95% CI: 3.2, 7.8), 52.6% sensitivity, 81.9% specificity, AUC 0.67. sGFAP had poor CEL detection. In patients > 50 years, neither cut-point remained significant. sNfL delta-change outperformed spot levels at identifying asymptomatic CELs (AUC 0.67 vs 0.59) and in patients without treatment escalation between samples (AUC 0.67 vs 0.57). Conclusion: Spot sNfL >23.0 pg/mL or a 30.8% increase from remission provides modest prediction of CELs in patients <50 years; however, low sNfL does not obviate the need for MRI. [ABSTRACT FROM AUTHOR]

Published

2023

39. RNF26 binds perinuclear vimentin filaments to integrate ER and endolysosomal responses to proteotoxic stress.

Author

Cremer, Tom, Voortman, Lenard M, Bos, Erik, Jongsma, Marlieke LM, ter Haar, Laurens R, Akkermans, Jimmy JLL, Talavera Ormeño, Cami MP, Wijdeven, Ruud HM, de Vries, Jelle, Kim, Robbert Q, Janssen, George MC, van Veelen, Peter A, Koning, Roman I, Neefjes, Jacques, and Berlin, Ilana

Subjects

*VIMENTIN, *ENDOPLASMIC reticulum, *PROTEOLYSIS, *CYTOPLASMIC filaments, *FIBERS, *QUALITY control

Abstract

Proteotoxic stress causes profound endoplasmic reticulum (ER) membrane remodeling into a perinuclear quality control compartment (ERQC) for the degradation of misfolded proteins. Subsequent return to homeostasis involves clearance of the ERQC by endolysosomes. However, the factors that control perinuclear ER integrity and dynamics remain unclear. Here, we identify vimentin intermediate filaments as perinuclear anchors for the ER and endolysosomes. We show that perinuclear vimentin filaments engage the ER‐embedded RING finger protein 26 (RNF26) at the C‐terminus of its RING domain. This restricts RNF26 to perinuclear ER subdomains and enables the corresponding spatial retention of endolysosomes through RNF26‐mediated membrane contact sites (MCS). We find that both RNF26 and vimentin are required for the perinuclear coalescence of the ERQC and its juxtaposition with proteolytic compartments, which facilitates efficient recovery from ER stress via the Sec62‐mediated ER‐phagy pathway. Collectively, our findings reveal a scaffolding mechanism that underpins the spatiotemporal integration of organelles during cellular proteostasis. Synopsis: Response to proteotoxic stress requires remodeling of the endoplasmic reticulum (ER) into the ER quality control compartment (ERQC), which is degraded in endolysosomes upon return to homeostasis. Here, a direct interaction between the ER‐embedded E3 ubiquitin ligase RNF26 and vimentin is shown to mediate perinuclear ER/endolysosome contact sites and to promote Sec62‐mediated ER‐phagy. Vimentin directly interacts with a C‐terminal motif of inactive RNF26 in the ER membrane.The vimentin–RNF26 interaction controls the perinuclear organization of ER membrane sheets and the endosomal system.Vimentin and RNF26 control ER morphology in homeostatic and stressed conditions.RNF26 localizes to vimentin‐coordinated ERQC domains and interacts with endoplasmic reticulum‐associated degradation (ERAD) machinery. [ABSTRACT FROM AUTHOR]

Published

2023

40. Woven bone formation and mineralization by rat mesenchymal stromal cells imply increased expression of the intermediate filament desmin.

Author

Di Conza, Giusy, Barbaro, Fulvio, Zini, Nicoletta, Spaletta, Giulia, Remaggi, Giulia, Elviri, Lisa, Mosca, Salvatore, Caravelli, Silvio, Mosca, Massimiliano, and Toni, Roberto

Subjects

BONE growth, CYTOPLASMIC filaments, STROMAL cells, METABOLIC bone disorders, OSTEITIS deformans, DYSPLASIA, VIMENTIN, CYTOSKELETAL proteins

Abstract

Background: Disordered and hypomineralized woven bone formation by dysfunctional mesenchymal stromal cells (MSCs) characterize delayed fracture healing and endocrine--metabolic bone disorders like fibrous dysplasia and Paget disease of bone. To shed light on molecular players in osteoblast differentiation, woven bone formation, and mineralization by MSCs we looked at the intermediate filament desmin (DES) during the skeletogenic commitment of rat bone marrow MSCs (rBMSCs), where its bone-related action remains elusive. Results: Monolayer cultures of immunophenotypically - and morphologically - characterized, adult male rBMSCs showed co-localization of desmin (DES) with vimentin, F-actin, and runx2 in all cell morphotypes, each contributing to sparse and dense colonies. Proteomic analysis of these cells revealed a topologically-relevant interactome, focused on cytoskeletal and related enzymes//chaperone/signalling molecules linking DES to runx2 and alkaline phosphatase (ALP). Osteogenic differentiation led to mineralized woven bone nodules confined to dense colonies, significantly smaller and more circular with respect to controls. It significantly increased also colony-forming efficiency and the number of DES-immunoreactive dense colonies, and immunostaining of co-localized DES/runx-2 and DES/ALP. These data confirmed pre-osteoblastic and osteoblastic differentiation, woven bone formation, and mineralization, supporting DES as a player in the molecular pathway leading to the osteogenic fate of rBMSCs. Conclusion: Immunocytochemical and morphometric studies coupled with proteomic and bioinformatic analysis support the concept that DES may act as an upstream signal for the skeletogenic commitment of rBMSCs. Thus, we suggest that altered metabolism of osteoblasts, woven bone, and mineralization by dysfunctional BMSCs might early be revealed by changes in DES expression//levels. Non-union fractures and endocrine -- metabolic bone disorders like fibrous dysplasia and Paget disease of bone might take advantage of this molecular evidence for their early diagnosis and follow-up. [ABSTRACT FROM AUTHOR]

Published

2023

41. Desmin Reorganization by Stimuli Inducing Oxidative Stress and Electrophiles: Role of Its Single Cysteine Residue.

Author

Moneo-Corcuera, Diego, Viedma-Poyatos, Álvaro, Stamatakis, Konstantinos, and Pérez-Sala, Dolores

Subjects

VIMENTIN, INTERMEDIATE filament proteins, OXIDATIVE stress, CYSTEINE, CYTOPLASMIC filaments, ELECTROPHILES

Abstract

The type III intermediate filament proteins vimentin and GFAP are modulated by oxidants and electrophiles, mainly through perturbation of their single cysteine residues. Desmin, the type III intermediate filament protein specific to muscle cells, is critical for muscle homeostasis, playing a key role in sarcomere organization and mitochondrial function. Here, we have studied the impact of oxidants and cysteine-reactive agents on desmin behavior. Our results show that several reactive species and drugs induce covalent modifications of desmin in vitro, of which its single cysteine residue, C333, is an important target. Moreover, stimuli eliciting oxidative stress or lipoxidation, including H2O2, 15-deoxy-prostaglandin J2, and CoCl2-elicited chemical hypoxia, provoke desmin disorganization in H9c2 rat cardiomyoblasts transfected with wild-type desmin, which is partially attenuated in cells expressing a C333S mutant. Notably, in cells lacking other cytoplasmic intermediate filaments, network formation by desmin C333S appears less efficient than that of desmin wt, especially when these proteins are expressed as fluorescent fusion constructs. Nevertheless, in these cells, the desmin C333S organization is also protected from disruption by oxidants. Taken together, our results indicate that desmin is a target for oxidative and electrophilic stress, which elicit desmin remodeling conditioned by the presence of its single cysteine residue. [ABSTRACT FROM AUTHOR]

Published

2023

42. Diagnostic and prognostic performance and longitudinal changes in plasma neurofilament light chain concentrations in adults with Down syndrome: a cohort study

Author

Carmona-Iragui, Maria, Alcolea, Daniel, Barroeta, Isabel, Videla, Laura, Muñoz, Laia, Van Pelt, Kathyrn L, Schmitt, Frederick A, Lightner, Donita D, Koehl, Lisa M, Jicha, Gregory, Sacco, Silvia, Mircher, Clotilde, Pape, Sarah E, Hithersay, Rosalyn, Clare, Isabel CH, Holland, Anthony J, Nübling, Georg, Levin, Johannes, Zaman, Shahid H, Strydom, Andre, Rebillat, Anne-Sophie, Head, Elizabeth, Blesa, Rafael, Lleó, Alberto, and Fortea, Juan

Subjects

Biomedical and Clinical Sciences, Neurosciences, Clinical Sciences, Prevention, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Acquired Cognitive Impairment, Neurodegenerative, Dementia, Clinical Research, Alzheimer's Disease, Brain Disorders, Aging, Detection, screening and diagnosis, 4.1 Discovery and preclinical testing of markers and technologies, Neurological, Adult, Age Factors, Aged, Alzheimer Disease, Apolipoprotein E4, Cohort Studies, Disease Progression, Down Syndrome, Female, Humans, Intellectual Disability, Intermediate Filaments, Longitudinal Studies, Male, Middle Aged, Neurofilament Proteins, Predictive Value of Tests, Prognosis, ROC Curve, Sex Factors, Neurology & Neurosurgery, Clinical sciences

Abstract

BackgroundAdults with Down syndrome are at an ultra-high risk of Alzheimer's disease, but diagnosis of Alzheimer's disease in this population is challenging. We aimed to validate the clinical utility of plasma neurofilament light chain (NfL) for the diagnosis of symptomatic Alzheimer's disease in Down syndrome, assess its prognostic value, and establish longitudinal changes in adults with Down syndrome.MethodsWe did a multicentre cohort study, including adults with Down syndrome (≥18 years), recruited from six hospitals and university medical centres in France, Germany, Spain, the UK, and the USA, who had been assessed, followed up, and provided at least two plasma samples. Participants were classified by local clinicians, who were masked to biomarker data, as asymptomatic (ie, no clinical suspicion of Alzheimer's disease), prodromal Alzheimer's disease, or Alzheimer's disease dementia. We classified individuals who progressed along the Alzheimer's disease continuum during follow-up as progressors. Plasma samples were analysed retrospectively; NfL concentrations were measured centrally using commercial kits for biomarker detection. We used ANOVA to evaluate differences in baseline NfL concentrations, Cox regression to study their prognostic value, and linear mixed models to estimate longitudinal changes. To account for potential confounders, we included age, sex, and intellectual disability as covariates in the analyses.FindingsBetween Aug 2, 2010, and July 16, 2019, we analysed 608 samples from 236 people with Down syndrome: 165 (70%) were asymptomatic, 32 (14%) had prodromal Alzheimer's disease, and 29 (12%) had Alzheimer's disease dementia; ten [4%] participants were excluded because their classification was uncertain. Mean follow-up was 3·6 years (SD 1·6, range 0·6-9·2). Baseline plasma NfL concentrations showed an area under the receiver operating characteristic curve of 0·83 (95% CI 0·76-0·91) in the prodromal group and 0·94 (0·90-0·97) in the dementia group for differentiating from participants who were asymptomatic. An increase of 1 pg/mL in baseline NfL concentrations was associated with a 1·04-fold risk of clinical progression (95% CI 1·01-1·07; p=0·0034). Plasma NfL concentrations showed an annual increase of 3·0% (95% CI 0·4-5·8) per year in the asymptomatic non-progressors group, 11·5% (4·9-18·5) per year in the asymptomatic progressors group, and 16·0% (8·4-24·0) per year in the prodromal Alzheimer's disease progressors group. In participants with Alzheimer's disease dementia, NfL concentrations increased by a mean of 24·3% (15·3-34·1).InterpretationPlasma NfL concentrations have excellent diagnostic and prognostic performance for symptomatic Alzheimer's disease in Down syndrome. The longitudinal trajectory of plasma NfL supports its use as a theragnostic marker in clinical trials.FundingAC Immune, La Caixa Foundation, Instituto de Salud Carlos III, National Institute on Aging, Wellcome Trust, Jérôme Lejeune Foundation, Medical Research Council, National Institute for Health Research, EU Joint Programme-Neurodegenerative Disease Research, Alzheimer's society, Deutsche Forschungsgemeinschaft, Stiftung für die Erforschung von Verhaltens und Umwelteinflüssen auf die menschliche Gesundheit, and NHS National Institute of Health Research Applied Research Collaborations East of England, UK.

Published

2021

43. Acute-Phase Neurofilament Light and Glial Fibrillary Acidic Proteins in Cerebrospinal Fluid Predict Long-Term Outcome After Severe Traumatic Brain Injury

Author

Andersson, Emma, Öst, Martin, Dalla, Keti, Zetterberg, Henrik, Blennow, Kaj, and Nellgård, Bengt

Published

2024

44. Protein biomarkers in multiple sclerosis

Author

Jun-Soon Kim

Subjects

biomarkers, cerebrospinal fluid, intermediate filaments, multiple sclerosis, Infectious and parasitic diseases, RC109-216, Neurology. Diseases of the nervous system, RC346-429

Abstract

This review aimed to elucidate protein biomarkers in body fluids, such as blood and cerebrospinal fluid (CSF), to identify those that may be used for early diagnosis of multiple sclerosis (MS), prediction of disease activity, and monitoring of treatment response among MS patients. The potential biomarkers elucidated in this review include neurofilament proteins (NFs), glial fibrillary acidic protein (GFAP), leptin, brain-derived neurotrophic factor (BDNF), chitinase-3-like protein 1 (CHI3L1), C-X-C motif chemokine 13 (CXCL13), and osteopontin (OPN), with each biomarker playing a different role in MS. GFAP, leptin, and CHI3L1 levels were increased in MS patient groups compared to the control group. NFs are the most studied proteins in the MS field, and significant correlations with disease activity, future progression, and treatment outcomes are evident. GFAP CSF level shows a different pattern by MS subtype. Increased concentration of CHI3L1 in the blood/CSF of clinically isolated syndrome (CIS) is an independent predictive factor of conversion to definite MS. BDNF may be affected by chronic progression of MS. CHI3L1 has potential as a biomarker for early diagnosis of MS and prediction of disability progression, while CXCL13 has potential as a biomarker of prognosis of CIS and reflects MS disease activity. OPN was an indicator of disease severity. A periodic detailed patient evaluation should be performed for MS patients, and broadly and easily accessible biomarkers with higher sensitivity and specificity in clinical settings should be identified.

Published

2023

45. Transiently structured head domains control intermediate filament assembly

Author

Zhou, Xiaoming, Lin, Yi, Kato, Masato, Mori, Eiichiro, Liszczak, Glen, Sutherland, Lillian, Sysoev, Vasiliy O, Murray, Dylan T, Tycko, Robert, and McKnight, Steven L

Subjects

Desmin, Humans, Intermediate Filaments, Phosphorylation, Protein Conformation, Protein Domains, low complexity domains, intermediate filaments, phase separation, labile cross-beta structures, in situ structural analysis, labile cross-β structures, intrinsically disordered proteins, human genetic mutations, dynamic cellular assemblies, solid state NMR, segmental isotope labeling, in situ structural analysis.

Abstract

Low complexity (LC) head domains 92 and 108 residues in length are, respectively, required for assembly of neurofilament light (NFL) and desmin intermediate filaments (IFs). As studied in isolation, these IF head domains interconvert between states of conformational disorder and labile, β-strand-enriched polymers. Solid-state NMR (ss-NMR) spectroscopic studies of NFL and desmin head domain polymers reveal spectral patterns consistent with structural order. A combination of intein chemistry and segmental isotope labeling allowed preparation of fully assembled NFL and desmin IFs that could also be studied by ss-NMR. Assembled IFs revealed spectra overlapping with those observed for β-strand-enriched polymers formed from the isolated NFL and desmin head domains. Phosphorylation and disease-causing mutations reciprocally alter NFL and desmin head domain self-association yet commonly impede IF assembly. These observations show how facultative structural assembly of LC domains via labile, β-strand-enriched self-interactions may broadly influence cell morphology.

Published

2021

46. Inhibition of PDIs Downregulates Core LINC Complex Proteins, Promoting the Invasiveness of MDA-MB-231 Breast Cancer Cells in Confined Spaces In Vitro

Author

Natalie Young, Zizhao Gui, Suleiman Mustafa, Kleopatra Papa, Emily Jessop, Elizabeth Ruddell, Laura Bevington, Roy A. Quinlan, Adam M. Benham, Martin W. Goldberg, Boguslaw Obara, and Iakowos Karakesisoglou

Subjects

intermediate filaments, lamin, LINC complex, nesprins, nuclear mechanics, nucleus, Cytology, QH573-671

Abstract

Eukaryotic cells tether the nucleoskeleton to the cytoskeleton via a conserved molecular bridge, called the LINC complex. The core of the LINC complex comprises SUN-domain and KASH-domain proteins that directly associate within the nuclear envelope lumen. Intra- and inter-chain disulphide bonds, along with KASH-domain protein interactions, both contribute to the tertiary and quaternary structure of vertebrate SUN-domain proteins. The significance of these bonds and the role of PDIs (protein disulphide isomerases) in LINC complex biology remains unclear. Reducing and non-reducing SDS-PAGE analyses revealed a prevalence of SUN2 homodimers in non-tumorigenic breast epithelia MCF10A cells, but not in the invasive triple-negative breast cancer MDA-MB-231 cell line. Furthermore, super-resolution microscopy revealed SUN2 staining alterations in MCF10A, but not in MDA-MB-231 nuclei, upon reducing agent exposure. While PDIA1 levels were similar in both cell lines, pharmacological inhibition of PDI activity in MDA-MB-231 cells led to SUN-domain protein down-regulation, as well as Nesprin-2 displacement from the nucleus. This inhibition also caused changes in perinuclear cytoskeletal architecture and lamin downregulation, and increased the invasiveness of PDI-inhibited MDA-MB-231 cells in space-restrictive in vitro environments, compared to untreated cells. These results emphasise the key roles of PDIs in regulating LINC complex biology, cellular architecture, biomechanics, and invasion.

Published

2024

47. Biochemical reactions remote-sensitized by excitons propagating across macroscopic distances along biological fibers: Isomerization of 11-cis-retinal

Author

Igor Khmelinskii and Vladimir Makarov

Subjects

Excitons, Long-range energy transfer, Intermediate filaments, Physical signaling within cells, Physical signaling between cells, Intermediate filament excitons, Chemistry, QD1-999

Abstract

Presently we report a second example of a biochemical reaction sensitized remotely by excitons (electronic excited states) efficiently transferred along intermediate filaments (IFs) over macroscopic distances. IFs are excellent conductors of energy in the form of excitons, with the efficiency of ca. 0.53 reported in vitro. Excitons were generated by visible light and propagated along Müller cell (MC) intermediate filaments, about 100 μm long. These experiments used a capillary matrix filled by MC IFs extracted from porcine retina. Excitons induced efficient isomerization of 11-cis- to all-trans-retinal, with the reaction quantum yield φcis/trans = 0.347 obtained for 11-cis-retinal concentration of 1.0 × 10−3 M (0.284 g/L) using 546 nm light at 6.87 mW/cm2 power density. Exciton quantum yield φexc at 546 nm was also measured in function of radiation power density, with nonlinearity indicative of biphotonic processes. This is the first case of biphotonic processes occurring at such low light intensities with steady-state illumination. The present results support quantum mechanism of high-contrast vision of vertebrate eyes.

Published

2023

48. Woven bone formation and mineralization by rat mesenchymal stromal cells imply increased expression of the intermediate filament desmin

Author

Giusy Di Conza, Fulvio Barbaro, Nicoletta Zini, Giulia Spaletta, Giulia Remaggi, Lisa Elviri, Salvatore Mosca, Silvio Caravelli, Massimiliano Mosca, and Roberto Toni

Subjects

desmin, intermediate filaments, cytoskeleton, mesenchymal stromal cells, woven bone, osteogenesis, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

BackgroundDisordered and hypomineralized woven bone formation by dysfunctional mesenchymal stromal cells (MSCs) characterize delayed fracture healing and endocrine –metabolic bone disorders like fibrous dysplasia and Paget disease of bone. To shed light on molecular players in osteoblast differentiation, woven bone formation, and mineralization by MSCs we looked at the intermediate filament desmin (DES) during the skeletogenic commitment of rat bone marrow MSCs (rBMSCs), where its bone-related action remains elusive.ResultsMonolayer cultures of immunophenotypically- and morphologically - characterized, adult male rBMSCs showed co-localization of desmin (DES) with vimentin, F-actin, and runx2 in all cell morphotypes, each contributing to sparse and dense colonies. Proteomic analysis of these cells revealed a topologically-relevant interactome, focused on cytoskeletal and related enzymes//chaperone/signalling molecules linking DES to runx2 and alkaline phosphatase (ALP). Osteogenic differentiation led to mineralized woven bone nodules confined to dense colonies, significantly smaller and more circular with respect to controls. It significantly increased also colony-forming efficiency and the number of DES-immunoreactive dense colonies, and immunostaining of co-localized DES/runx-2 and DES/ALP. These data confirmed pre-osteoblastic and osteoblastic differentiation, woven bone formation, and mineralization, supporting DES as a player in the molecular pathway leading to the osteogenic fate of rBMSCs.ConclusionImmunocytochemical and morphometric studies coupled with proteomic and bioinformatic analysis support the concept that DES may act as an upstream signal for the skeletogenic commitment of rBMSCs. Thus, we suggest that altered metabolism of osteoblasts, woven bone, and mineralization by dysfunctional BMSCs might early be revealed by changes in DES expression//levels. Non-union fractures and endocrine – metabolic bone disorders like fibrous dysplasia and Paget disease of bone might take advantage of this molecular evidence for their early diagnosis and follow-up.

Published

2023

49. Vimentin: from a cytoskeletal protein to a critical modulator of immune response and a target for infection.

Author

Arrindell, Jeffrey and Desnues, Benoit

Subjects

IMMUNOMODULATORS, CYTOSKELETAL proteins, INTERMEDIATE filament proteins, VIMENTIN, CELL morphology

Abstract

Vimentin is an intermediate filament protein that plays a role in cell processes, including cell migration, cell shape and plasticity, or organelle anchorage. However, studies from over the last quarter-century revealed that vimentin can be expressed at the cell surface and even secreted and that its implications in cell physiology largely exceed structural and cytoskeletal functions. Consequently, vimentin contributes to several pathophysiological conditions such as cancer, autoimmune and inflammatory diseases, or infection. In this review, we aimed at covering these various roles and highlighting vimentin implications in the immune response. We also provide an overview of how some microbes including bacteria and viruses have acquired the ability to circumvent vimentin functions in order to interfere with host responses and promote their uptake, persistence, and egress from host cells. Lastly, we discuss the therapeutic approaches associated with vimentin targeting, leading to several beneficial effects such as preventing infection, limiting inflammatory responses, or the progression of cancerous events. [ABSTRACT FROM AUTHOR]

Published

2023

50. Characters of KRT80 and its roles in neoplasms diseases.

Author

Wei, Xin‐Yuan, Zhao, Jie, Tong, Hao‐Bin, Cheng, Shang‐Jie, He, Na, and Song, Fei‐Xue

Subjects

*CYTOPLASMIC filaments, *CELL migration, *CANCER prognosis, *GENE expression, *TUMORS

Abstract

Background: KRT80 is a human epithelial intermediate filament type II gene; its expression product is a component of intracellular intermediate filaments (IFs) and is involved in the assembly of the cytoskeleton. There is evidence that IFs form a dense network mainly in the perinuclear area, but they can also reach the cortex. They are essential for mechanical cushioning of cells, organelle positioning, cell apoptosis, migration, adhesion, and interactions with other cytoskeletal components. Humans possess 54 functional keratin genes, and KRT80 is one of the more unique genes. It is widely expressed in almost all epithelial cells, although it is structurally more similar to type II hair keratins than to type II epithelial keratins. Aim: In this review, we summarize the basic facts about the keratin family and KRT80, the essential role of KRT80 in neoplasms, and its potential as a therapeutic target. We hope that this review will inspire researchers to at least partially focus on this area. Result: In many neoplastic diseases, the high expression status of KRT80 and its role in regulating the biological functions of cancer cells have been well established. KRT80 can effectively enhance the proliferation, invasiveness and migration of cancer cells. However, the effects of KRT80 on prognosis and clinically relevant indices in patients with various cancers have not been extensively studied, and even opposite conclusions have been reached in different studies of the same cancer. Based on this, we should add more clinically relevant studies to clarify the prospect of clinical application of KRT80. Many researchers have made great progress in studying the mechanism of action of KRT80. However, their studies should be extended to more cancers to find common regulators and signaling pathways of KRT80 in different cancers. KRT80 may have far‐reaching effects on the human body, and this marker may play a crucial role in the function of cancer cells and the prognosis of cancer patients, so it has a promising future in the field of neoplasms. Conclusion: In neoplastic diseases, KRT80 is overexpressed in many cancers and plays an essential role in promoting proliferation, migration, invasiveness and poor prognosis. The mechanisms of KRT80 functions in cancer have been partially elucidated, suggesting that KRT80 is a potentially useful cancer therapeutic target. However, more systematic, in‐depth and comprehensive studies are still needed in this field. [ABSTRACT FROM AUTHOR]

Published

2023