Inmunolocalización de citoqueratina 14, 19 y Ki-67 en el epitelio de pacientes con agrandamiento gingival

R E S U M E N En pacientes con ortodoncia aparecen eventos patológicos no deseados como agrandamiento gingival inducido por tratamiento de ortodoncia (AGTO) o hipertrofia gingival. El objetivo del estudio es identificar la distribución inmunohistoquímica de citoqueratina CK-14, CK-19 y Ki-67 en epitelio gingival de pacientes con AGTO. Se seleccionaron I3 pacientes divididos en: grupo control (n=6), conformado por individuos periodontalmente sanos no portadores de aparatología ortodóntica y grupo test (n=7), integrado por pacientes con AGTO. Los marcadores CK-14, CK-19 y Ki-67 fueron identificados mediante inmunohistoquímica con anticuerpos monoclonales y observados en un microscopio óptico Leica DM 500. En los pacientes del grupo test el tejido epitelial se mostró hipertrófico con pérdida en la continuidad de la membrana basal. La CK-14 y CK-19 fue positiva en el epitelio de todos los sujetos evaluados, con una expresión positiva de alta intensidad en células de la lámina basal del grupo test. El promedio de células positivas para Ki-67 en el grupo test fue de 56%. En conclusión, la CK-14, CK-19 y Ki-67 son marcadores con elevada inmunoreactividad en tejido gingival de pacientes con AGTO portadores de ortodoncia.

During orthodontic treatment, unwanted pathological events such as gingival overgrowth induced by orthodontic treatment or gingival hypertrophy may appear The objective of this study is to identify immunohistochemical distribution of cytokeratin CK-14, CK-19 and Ki-67 in the gingival epithelium of patients with gingival overgrowth induced by orthodontic treatment. Thirteen patients were selected divided into: control group (n = 6), conformed of periodontally healthy individuals without orthodontic appliances and the test group (n = 7), conformed of patients with gingival overgrowth induced by orthodontic treatment. The biomarkers CK-14, CK-19 and Ki-67 were identified by immunohistochemistry with monoclonal antibodies and observed in a Leica DM 500 optical microscope. Hypertrophic epithelial tissue with loss of continuity of the basement membrane was found in the test group patients. CK-14 and CK-19 were positive in the epithelial tissue of all the subjects evaluated, with a high intensity positive expression in the cells of the basal lamina of the test group. The average number of cells positive for Ki-67 in test group was 56%. In conclusion, CK-14, CK-19 and Ki-67 are biomarkers with high immunoreactivity in the gingival tissue of patients with gingival overgrowth induced by orthodontic treatment.

Durante o tratamento ortodôntico, eventos patológicos indesejados como o crescimento gengival induzido pelo tratamento ortodôntico (CGTO) ou hipertrofia gengival podem aparecer: O objetivo deste estudo é identificar a distribuição imuno-histoquímica das citoqueratinas CK -14, CK-19 e Ki-67 no epitélio gengival de pacientes com CGTO. Foram selecionados 13 pacientes divididos em: grupo controle (n=6), conformado por indivíduos periodontalmente saudáveis sem aparelhos ortodônticos e o grupo teste (n=7), conformado por pacientes com CGTO. Os biomarcadores CK-14, CK-19 e Ki-67 foram identificados por imuno-histoquímica com anticorpos monoclonais e observados em microscópio óptico Leica DM 500. Tecido epitelial hipertrófico com perda de continuidade da membrana basal foi encontrado nos pacientes do grupo teste. CK-14 e CK-19 foram positivos no tecido epitelial de todos os sujeitos avaliados, com expressão positiva de alta intensidade nas células da lâmina basal do grupo teste. O número médio de células positivas para Ki-67 no grupo teste foi de 56%. Em conclusão, CK-14, CK-19 e Ki-67 são biomarcadores com alta imunorreatividade no tecido gengival de pacientes com CGTO.

Are cytoskeleton changes observed in astrocytes functionally linked to aging?

Astrocytes are active participants in the performance of the Central Nervous System (CNS) in both health and disease. During aging, astrocytes are susceptible to reactive astrogliosis, a molecular state characterized by functional changes in response to pathological situations, and cellular senescence, characterized by loss of cell division, apoptosis resistance, and gain of proinflammatory functions. This results in two different states of astrocytes, which can produce proinflammatory phenotypes with harmful consequences in chronic conditions. Reactive astrocytes and senescent astrocytes share morpho-functional features that are dependent on the organization of the cytoskeleton. However, such changes in the cytoskeleton have yet to receive the necessary attention to explain their role in the alterations of astrocytes that are associated with aging and pathologies. In this review, we summarize all the available findings that connect changes in the cytoskeleton of the astrocytes with aging. In addition, we discuss future avenues that we believe will guide such a novel topic.

Expression of Intermediate Filaments in the Developing Testis and Testicular Germ Cell Cancer.

Cytokeratin and desmin expression have been associated with Sertoli cell maturity and the development of testicular germ cell cancer (TGCC). Thus, the present study aimed to characterize the expression of these intermediate filaments in normal testis development and TGCC. Cytokeratin and desmin were determined by immunohistochemistry and immunofluorescence in human fetal, and adult testis and tissue from patients with pre-invasive germ cell neoplasia in-situ (GCNIS) or invasive TGCC. Desmin was expressed in Sertoli cells of the human fetal testis, and the proportion of desmin expressing Sertoli cells was significantly reduced in the second trimester, compared with the first trimester (31.14% vs. 6.74%, p = 0.0016). Additionally, Desmin was expressed in the majority of Sertoli cells in the adult testis and TGCC samples. Cytokeratin was detected in Sertoli cells of human fetal testis but was not expressed in Sertoli cells of human adult testis. In patients with TGCC, cytokeratin was not expressed in Sertoli cells in tubules with active spermatogenesis but was detected in Sertoli cells in tubules containing GCNIS cells in patients with both pre-invasive and invasive TGCC. In conclusion, desmin was not associated with Sertoli cell maturation or progression to TGCC. However, cytokeratin appeared to be an indicator of impaired Sertoli cell maturation.

What does desmin do: A bibliometric assessment of the functions of the muscle intermediate filament.

Intermediate filaments were first described in muscle in 1968, and desmin was biochemically identified about 10 years afterwards. Its importance grew after the identification of desminopathies and desmin mutations that cause mostly cardiopathies. Since its characterization until recently, different functions have been attributed to desmin. Here, we use bibliometric tools to evaluate the articles published about desmin and to assess its several putative functions. We identified the most productive authors and the relationships between research groups. We studied the more frequent words among 9734 articles (September 2021) containing "desmin" on the title and abstract, to identify the major research focus. We generated an interactive spreadsheet with the 934 papers that contain "desmin" only on the title that can be used to search and quantify terms in the abstract. We further selected the articles that contained the terms "function" or "role" from the spreadsheet, which we then classified according to type of function, organelle, or tissue involved. Based on the bibliographic analysis, we assess comparatively the putative functions, and we propose an alternative explanation for the desmin function.

Biomechanical Properties of the Sarcolemma and Costameres of Skeletal Muscle Lacking Desmin.

Intermediate filaments (IFs), composed primarily by desmin and keratins, link the myofibrils to each other, to intracellular organelles, and to the sarcolemma. There they may play an important role in transfer of contractile force from the Z-disks and M-lines of neighboring myofibrils to costameres at the membrane, across the membrane to the extracellular matrix, and ultimately to the tendon ("lateral force transmission"). We measured the elasticity of the sarcolemma and the connections it makes at costameres with the underlying contractile apparatus of individual fast twitch muscle fibers of desmin-null mice. By positioning a suction pipet to the surface of the sarcolemma and applying increasing pressure, we determined the pressure at which the sarcolemma separated from nearby sarcomeres, Pseparation, and the pressure at which the isolated sarcolemma burst, Pbursting. We also examined the time required for the intact sarcolemma-costamere-sarcomere complex to reach equilibrium at lower pressures. All measurements showed the desmin-null fibers to have slower equilibrium times and lower Pseparation and Pbursting than controls, suggesting that the sarcolemma and its costameric links to nearby contractile structures were weaker in the absence of desmin. Comparisons to earlier values determined for muscles lacking dystrophin or synemin suggest that the desmin-null phenotype is more stable than the former and less stable than the latter. Our results are consistent with the moderate myopathy seen in desmin-null muscles and support the idea that desmin contributes significantly to sarcolemmal stability and lateral force transmission.

Apparent stiffness of vimentin intermediate filaments in living cells and its relation with other cytoskeletal polymers.

The cytoskeleton is a complex network of interconnected biopolymers intimately involved in the generation and transmission of forces. Several mechanical properties of microtubules and actin filaments have been extensively explored in cells. In contrast, intermediate filaments (IFs) received comparatively less attention despite their central role in defining cell shape, motility and adhesion during physiological processes as well as in tumor progression. Here, we explored relevant biophysical properties of vimentin IFs in living cells combining confocal microscopy and a filament tracking routine that allows localizing filaments with ~20 nm precision. A Fourier-based analysis showed that IFs curvatures followed a thermal-like behavior characterized by an apparent persistence length (lp*) similar to that measured in aqueous solution. Additionally, we determined that certain perturbations of the cytoskeleton affect lp* and the lateral mobility of IFs as assessed in cells in which either the microtubule dynamic instability was reduced or actin filaments were partially depolymerized. Our results provide relevant clues on how vimentin IFs mechanically couple with microtubules and actin filaments in cells and support a role of this network in the response to mechanical stress.

Human erythrocytes: cytoskeleton and its origin.

In the last few years, erythrocytes have emerged as the main determinant of blood rheology. In mammals, these cells are devoid of nuclei and are, therefore, unable to divide. Consequently, all circulating erythrocytes come from erythropoiesis, a process in the bone marrow in which several modifications are induced in the expression of membrane and cytoskeletal proteins, and different vertical and horizontal interactions are established between them. Cytoskeleton components play an important role in this process, which explains why they and the interaction between them have been the focus of much recent research. Moreover, in mature erythrocytes, the cytoskeleton integrity is also essential, because the cytoskeleton confers remarkable deformability and stability on the erythrocytes, thus enabling them to undergo deformation in microcirculation. Defects in the cytoskeleton produce changes in erythrocyte deformability and stability, affecting cell viability and rheological properties. Such abnormalities are seen in different pathologies of special interest, such as different types of anemia, hypertension, and diabetes, among others. This review highlights the main findings in mammalian erythrocytes and their progenitors regarding the presence, conformation and function of the three main components of the cytoskeleton: actin, intermediate filaments, and tubulin.

Sarcomere structure: the importance of desmin protein in muscle atrophy / Estructura de sarcómera: la importancia de proteína desmina en atrofia muscular

Knowing the ultrastructure of skeletal muscle is critical to understand how it works under normal situation and the disorders caused by extreme or pathological conditions. Sarcomere is the basic structural unit of striated muscle tissue. An important element of sarcomere architecture are the intermediate filaments, including the desmin protein. Desmin protein contributes to maintenance of cell integrity, efficient transmission of force and mechanochemical signaling within the myocyte. Because of this, desmin protein has constantly been a focus of research that investigates its alterations associated to damage and muscle atrophy under different conditions. The purpose of the following literature review is to describe the basic concepts of muscle ultrastructure, emphasizing the desmin protein role under conditions of muscle disuse atrophy and aging.

Conocer la ultraestructura del músculo esquelético es crítico para entender cómo trabaja bajo situaciones normales y en desórdenes causados por condiciones extremas o patológicas. La sarcómera es la unidad de estructura básica del tejido muscular estriado. Elementos importantes en la arquitectura de la sarcómera son los filamentos intermedios, incluyendo la proteína desmina. La proteína desmina contribuye en mantener la integridad celular, la transmisión eficiente de fuerza y la señalización mecanoquímica dentro del miocito. Debido a lo anterior, la proteína desmina ha sido constante foco de investigación en trabajos que estudian sus alteraciones asociadas a daño y atrofia muscular bajo diferentes condiciones. El propósito de la siguiente revisión de la literatura es describir los conceptos básicos de la ultraestructura muscular, enfatizando en el rol de la proteína desmina bajo condiciones de atrofia muscular por desuso y envejecimiento.

Methylphenidate disrupts cytoskeletal homeostasis and reduces membrane-associated lipid content in juvenile rat hippocampus.

Although methylphenidate (MPH) is ubiquitously prescribed to children and adolescents, the consequences of chronic utilization of this psychostimulant are poorly understood. In this study, we investigated the effects of MPH on cytoskeletal homeostasis and lipid content in rat hippocampus. Wistar rats received intraperitoneal injections of MPH (2.0 mg/kg) or saline solution (controls), once a day, from the 15th to the 44th day of age. Results showed that MPH provoked hypophosphorylation of glial fibrillary acidic protein (GFAP) and reduced its immunocontent. Middle and high molecular weight neurofilament subunits (NF-M, NF-H) were hypophosphorylated by MPH on KSP repeat tail domains, while NFL, NFM and NFH immunocontents were not altered. MPH increased protein phosphatase 1 (PP1) and 2A (PP2A) immunocontents. MPH also decreased the total content of ganglioside and phospholipid, as well as the main brain gangliosides (GM1, GD1a, and GD1b) and the major brain phospholipids (sphingomyelin, phosphatidylcholine, phosphatidylethanolamine, phosphatidylinositol, and phosphatidylserine). Total cholesterol content was also reduced in the hippocampi of juvenile rats treated with MPH. These results provide evidence that disruptions of cytoskeletal and lipid homeostasis in hippocampus of juvenile rats are triggers by chronic MPH treatment and present a new basis for understanding the effects and consequences associated with chronic use of this psychostimulant during the development of the central nervous system.

Quantum mechanism of light transmission by the intermediate filaments in some specialized optically transparent cells.

Some very transparent cells in the optical tract of vertebrates, such as the lens fiber cells, possess certain types of specialized intermediate filaments (IFs) that have essential significance for their transparency. The exact mechanism describing why the IFs are so important for transparency is unknown. Recently, transparency was described also in the retinal Müller cells (MCs). We report that the main processes of the MCs contain bundles of long specialized IFs, each about 10 nm in diameter; most likely, these filaments are the channels providing light transmission to the photoreceptor cells in mammalian and avian retinas. We interpret the transmission of light in such channels using the notions of quantum confinement, describing energy transport in structures with electroconductive walls and diameter much smaller than the wavelength of the respective photons. Model calculations produce photon transmission efficiency in such channels exceeding 0.8, in optimized geometry. We infer that protein molecules make up the channels, proposing a qualitative mechanism of light transmission by such structures. The developed model may be used to describe light transmission by the IFs in any transparent cells.

Identification of Vimentin as a Potential Therapeutic Target against HIV Infection.

A combination of antiviral drugs known as antiretroviral therapy (ART) has shown effectiveness against the human immunodeficiency virus (HIV). ART has markedly decreased mortality and morbidity among HIV-infected patients, having even reduced HIV transmission. However, an important current disadvantage, resistance development, remains to be solved. Hope is focused on developing drugs against cellular targets. This strategy is expected to prevent the emergence of viral resistance. In this study, using a comparative proteomic approach in MT4 cells treated with an anti-HIV leukocyte extract, we identified vimentin, a molecule forming intermediate filaments in the cell, as a possible target against HIV infection. We demonstrated a strong reduction of an HIV-1 based lentivirus expressing the enhanced green fluorescent protein (eGFP) in vimentin knockdown cells, and a noteworthy decrease of HIV-1 capsid protein antigen (CAp24) in those cells using a multiround infectivity assay. Electron micrographs showed changes in the structure of intermediate filaments when MT4 cells were treated with an anti-HIV leukocyte extract. Changes in the structure of intermediate filaments were also observed in vimentin knockdown MT4 cells. A synthetic peptide derived from a cytoskeleton protein showed potent inhibitory activity on HIV-1 infection, and low cytotoxicity. Our data suggest that vimentin can be a suitable target to inhibit HIV-1.

Acute Hyperammonemia Induces NMDA-Mediated Hypophosphorylation of Intermediate Filaments Through PP1 and PP2B in Cerebral Cortex of Young Rats.

In the present work, we studied the effects of toxic ammonia levels on the cytoskeleton of neural cells, with emphasis in the homeostasis of the phosphorylating system associated with the intermediate filaments (IFs). We used in vivo and in vitro models of acute hyperammonemia in 10- and 21-day-old rats. In the in vivo model, animals were intraperitoneally injected with ammonium acetate (7 mmol/Kg), and the phosphorylation level of the cytoskeletal proteins was analyzed in the cerebral cortex and hippocampus 30 and 60 min after injection. The injected ammonia altered the IF phosphorylation of astrocytes (GFAP and vimentin) and neurons (neurofilament subunits of low, middle, and high molecular weight, respectively: NFL, NFM, and NFH) from cerebral cortex of 21-day-old rats. This was a transitory effect observed 30 min after injection, recovering 30 min afterward. Phosphorylation was not altered in the cerebral cortex of 10-day-old pups. The homeostasis of hippocampal IFs was preserved at the studied ages and times. In the in vitro model, cortical slices of 10- and 21-day-old rats were incubated with 0.5, 1, or 5 mM NH4Cl, and the phosphorylation level of the IF proteins was analyzed after 30 min. The IF phosphorylation was not altered in cortical slices of 10-day-old rats; however, in cortical slices of 21-day-old pups, 5 mM NH4Cl induced hypophosphorylation of GFAP and vimentin, preserving neurofilament phosphorylation levels. Hypophosphorylation was mediated by the protein phosphatases 1 (PP1) and 2B (PP2B), and this event was associated with Ca(2+) influx via N-methyl-D-aspartate (NMDA) glutamate receptors. The aim of this study is to show that acute ammonia toxicity targets the phosphorylating system of IFs in the cerebral cortex of rats in a developmentally regulated manner, and NMDA-mediated Ca(2+) signaling plays a central role in this mechanism. We propose that the disruption of cytoskeletal homeostasis could be an endpoint of the acute hyperammonemia in the developing brain. We believe that these results contribute for better understanding the molecular basis of the ammonia toxicity in brain.

Loss of Sertoli-germ cell adhesion determines the rapid germ cell elimination during the seasonal regression of the seminiferous epithelium of the large hairy armadillo Chaetophractus villosus.

The armadillo Chaetophractus villosus is a seasonal breeder whose seminiferous epithelium undergoes rapid regression with massive germ cell loss, leaving the tubules with only Sertoli cells and spermatogonia. Here, we addressed the question of whether this regression entails 1) the disassembly of cell junctions (immunolocalization of nectin-3, Cadm1, N-cadherin, and beta-catenin, and transmission electron microscopy [TEM]); 2) apoptosis (immunolocalization of cytochrome c and caspase 3; TUNEL assay); and 3) the involvement of Sertoli cells in germ cell phagocytosis (TEM). We showed a dramatic reduction in the extension of vimentin filaments associated with desmosomelike junctions at the interface between Sertoli and germ cells, and an increased diffusion of the immunosignals of nectin-3, Cadm1, N-cadherin, and beta-catenin. Together, these results suggest loss of Sertoli-germ cell adhesion, which in turn might determine postmeiotic cell sloughing at the beginning of epithelium regression. Then, loss of Sertoli-germ cell adhesion triggers cell death. Cytochrome c is released from mitochondria, but although postmeiotic cells were negative for late apoptotic markers, at advanced regression spermatocytes were positive for all apoptotic markers. Transmission electron microscopy analysis showed cytoplasmic engulfment of cell debris and lipid droplets within Sertoli cells, a sign of their phagocytic activity, which contributes to the elimination of the residual meiocytes still present in the latest regression phases. These findings are novel and add new players to the mechanisms of seminiferous epithelium regression occurring in seasonal breeders, and they introduce the armadillo as an interesting model for studying seasonal spermatogenesis.

When size does matter: organelle size influences the properties of transport mediated by molecular motors.

BACKGROUND: Organelle transport is driven by the action of molecular motors. In this work, we studied the dynamics of organelles of different sizes with the aim of understanding the complex relation between organelle motion and microenvironment. METHODS: We used single particle tracking to obtain trajectories of melanosomes (pigmented organelles in Xenopus laevis melanophores). In response to certain hormones, melanosomes disperse in the cytoplasm or aggregate in the perinuclear region by the combined action of microtubule and actin motors. RESULTS AND CONCLUSIONS: Melanosome trajectories followed an anomalous diffusion model in which the anomalous diffusion exponent (α) provided information regarding the trajectories' topography and thus of the processes causing it. During aggregation, the directionality of big organelles was higher than that of small organelles and did not depend on the presence of either actin or intermediate filaments (IF). Depolymerization of IF significantly reduced α values of small organelles during aggregation but slightly affect their directionality during dispersion. GENERAL SIGNIFICANCE: Our results could be interpreted considering that the number of copies of active motors increases with organelle size. Transport of big organelles was not influenced by actin or IF during aggregation showing that these organelles are moved processively by the collective action of dynein motors. Also, we found that intermediate filaments enhance the directionality of small organelles suggesting that this network keeps organelles close to the tracks allowing their efficient reattachment. The higher directionality of small organelles during dispersion could be explained considering the better performance of kinesin-2 vs. dynein at the single molecule level.

Haemostatic role of intermediate filaments in adhered platelets: importance of the membranous system stability.

The role of platelets in coagulation and the haemostatic process was initially suggested two centuries ago, and under appropriate physiological stimuli, these undergo abrupt morphological changes, attaching and spreading on damaged endothelium, preventing bleeding. During the adhesion process, platelet cytoskeleton reorganizes generating compartments in which actin filaments, microtubules, and associated proteins are arranged in characteristic patterns mediating crucial events, such as centralization of their organelles, secretion of granule contents, aggregation with one another to form a haemostatic plug, and retraction of these aggregates. However, the role of Intermediate filaments during the platelet adhesion process has not been explored. J. Cell. Biochem. 114: 2050-2060, 2013. © 2013 Wiley Periodicals, Inc.

Novas funções da proteina AIRE: 1) seu papel na resposta mediada por dectina-1 em fagocitos mononucleares humanos: 2) sua associação com a queratina 17, proteina dos filamentos intermediarios / New roles of AIRE protein

A Poliendocrinopatia autoimune associada a candidíase e distrofia ectodérmica (APECED) é um síndrome caracterizado pela presença de pelo menos dois sintomas clínicos, endocrinopatia autoimune, sendo que as mais comuns são hipoparatiroidismo, doença de Addison, além de candidíase mucocutânea crônica. É também comum nos pacientes o desenvolvimento de distrofia ectodérmica, como distrofia nas unhas ou alopécia. O APECED é produzido por mutações no gene AIRE, que codifica uma proteína com propriedades reguladoras na transcrição de proteínas ectópicas no timo, o que estaria envolvido na seleção negativa de células T auto-reativas, e conseqüentemente no desenvolvimento da doença autoimune. No entanto a associação da deficiência da proteína AIRE com a suscetibilidade a candidíase ou a distrofia ectodérmica permanecem obscuras. No presente trabalho, investigamos a possibilidade que esta associação esteja envolvida com a expressão e função da proteína AIRE no ambiente extra-tímico. Usando células de sangue periférico de pacientes com mutações no AIRE...

The autoimmune polyendocrinopathy candidiasis and ectodermal dystrophy (APECED) is characterized by the presence of two from three major clinical symptoms: Addison's disease, and/or hypoparathyroidism, and/or chronic mucocutaneous candidiasis. These patients develop also ectodermal dystrophies like nail dystrophy and alopecia. APECED is caused by mutations in the autoimmune regulator gene (AIRE). This gene encodes a protein with DNA binding capacity that can transcriptionally modulate ectopic peripheral tissue antigen (PTA) expression in the thymus, facilitating T cell negative selection. Defects in AIRE may be related with the development of multipleendocrine failure of autoimmune origin in patients with APECED. In spite of this, the role of AIRE deficiency in the C. albicans susceptibility or ectodermal dystrophy, common features in APECED patients, remains to be elucidated. In the present work we explored the hypothesis that candidiasis and ectodermal dystrophy are associated with the extra-thymic role of AIRE...