Thyroid cancer (TC) is the most prevalent endocrine malignancy. More than 90 % of TC is represented by differentiated TC (DTC) arising from the follicular thyroid cells. DTC includes papillary TC ...(PTC), follicular TC (FTC), and Hürthle cell TC. Anaplastic TC (ATC) accounts for 1% of TC, and it represents 15–40 % of TC death. Current treatment strategies are not completely effective against aggressive DTC or ATC, and mortality is one of the most important challenges.
Recently, progresses have been obtained in the understanding of the molecular/genetic basis of TC progression, and new drugs have been introduced i.e. tyrosine kinase inhibitors (TKIs), able to block the oncogenic or signaling kinases, associated with cellular growth.
Thyroid cell lines, obtained from tumoral cells and chosen for high proliferation in vitro, have been used as preclinical models. Actually, these cells lose the characteristic features of the primary tumor, because they adapt to in vitro growth conditions. For these reasons, the use of these cell lines has important limitations, and more recently human primary cell cultures have been established as monolayer cultures, and investigated for their biological behavior. Moreover, in the past, primary TC cells could be collected only through surgical biopsies, while recently human primary cell cultures can be established also from samples of fine-needle aspiration citology from aggressive dedifferentiated DTC or ATC. Testing in vitro different TKIs in each patient can help to develop new personalized treatments, without using ineffective drugs.
In conclusion, personalized medicine and precise oncology, which consider both patients and their disease features, represent the future of the treatment approach, and further progress is needed in this direction.
Peroxisomes are essential organelles for maintaining the homeostasis of lipids and reactive oxygen species (ROS). While oxidative stress-induced endoplasmic reticulum (ER) stress plays an important ...role in nonalcoholic fatty liver disease (NAFLD), the role of peroxisomes in ROS-mediated ER stress in the development of NAFLD remains elusive. We investigated whether an impaired peroxisomal redox state accelerates NAFLD by activating ER stress by inhibiting catalase, an antioxidant expressed exclusively in peroxisomes. Wild-type (WT) and catalase knockout (CKO) mice were fed either a normal diet or a high-fat diet (HFD) for 11 weeks. HFD-induced phenotype changes and liver injury accompanied by ER stress and peroxisomal dysfunction were accelerated in CKO mice compared to WT mice. Interestingly, these changes were also significantly increased in CKO mice fed a normal diet. Inhibition of catalase by 3-aminotriazole in hepatocytes resulted in the following effects: (i) increased peroxisomal H2O2 levels as measured by a peroxisome-targeted H2O2 probe (HyPer-P); (ii) elevated intracellular ROS; (iii) decreased peroxisomal biogenesis; (iv) activated ER stress; (v) induced lipogenic genes and neutral lipid accumulation; and (vi) suppressed insulin signaling cascade associated with JNK activation. N-acetylcysteine or 4-phenylbutyric acid effectively prevented those alterations. These results suggest that a redox imbalance in peroxisomes perturbs cellular metabolism through the activation of ER stress in the liver.
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•Catalase deficiency accelerates nonalcoholic fatty liver disease (NAFLD) in mice.•Catalase deficiency impairs redox balance of peroxisomes in NAFLD.•Peroxisomal redox imbalance accelerates ER stress-mediated NAFLD.
Rising ocean temperatures due to climate change combined with the intensification of anthropogenic activity can drive shifts in the geographic distribution of species, with the risks of introducing ...new diseases. In a changing environment, new host-pathogen interactions or changes to existing dynamics represent a major challenge for native species at high latitudes. Notothenioid fish constitute a unique study system since members of this group are found inside and outside Antarctica, are highly adapted to cold and particularly sensitive to temperature increments. However, data about their immune response remains scarce. Here, we aimed to evaluate the innate immune response under thermal stress in two species of Notothenioid fish, Harpagifer antarcticus and Harpagifer bispinis. Adult individuals from both species were collected on King George Island (Antarctica), and Punta Arenas (Chile), respectively. Specimens were assigned to a control group or injected with one of two agents (LPS and Poly I:C) to simulate either a bacterial or viral infection, and subjected to three different temperatures 2, 5 and 8 °C for 1 week. In parallel, we established leukocytes primary cell cultures from head kidney, which were also subjected to the immunostimulants at the same three temperatures, and incubated for 0.5, 1, 3, 6, 12, 24, and 48 h. We evaluated the relative gene expression of genes involved in the innate immune response (TLR1, TLR3, NF-kB, MYD88, IFNGR e IL-8) through real time qPCR. We found differences between species mainly in vivo, where H. antarcticus exhibited upregulation at high temperatures and H. bispinis seemed to have reached their physiological minimum at 2 °C. Although temperature had a strong effect during the in vivo assay for both species, it was negligible for primary cell cultures, which responded primarily to condition and time. Moreover, while leukocytes responded with fluctuations across time points, in vivo both species manifested strong and clear patterns of gene expression. These results highlight the importance of evaluating the effect of multiple stressors and set a precedent for future research.
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•1.- Notothenioid fish are found inside and outside Antarctica, are highly adapted to cold and sensitive to temperature increments.•2.- Rising ocean temperatures due to climate change combined with the intensification of anthropogenic activity can drive shifts in the geographic distribution of species.•3.- We evaluate the innate immune response to thermal stress in two species of Notothenioid fish, Harpagifer antarcticus and H. bispinis.•4.- The immune response showed differences between both species mainly in vivo.
Several animal species are susceptible to SARS-CoV-2 infection, as documented by case reports and serological and in vivo infection studies. However, the susceptibility of many animal species remains ...unknown. Furthermore, the expression patterns of SARS-CoV-2 entry factors, such as the receptor angiotensin-converting enzyme 2 (ACE2), as well as transmembrane protease serine subtype 2 (TMPRSS2) and cathepsin L (CTSL), cellular proteases involved in SARS-CoV-2 spike protein activation, are largely unexplored in most species. Here, we generated primary cell cultures from the respiratory tract of domestic and wildlife animals to assess their susceptibility to SARS-CoV-2 infection. Additionally, the presence of
,
and
within respiratory tract compartments was investigated in a range of animals, some with unknown susceptibility to SARS-CoV-2. Productive viral replication was observed in the nasal mucosa explants and precision-cut lung slices from dogs and hamsters, whereas culture models from ferrets and multiple ungulate species were non-permissive to infection. Overall, whereas
and
were equally expressed in the respiratory tract, the expression levels of
were more variable, suggesting that a restricted availability of ACE2 may contribute to reduced susceptibility. Summarized, the experimental infection of primary respiratory tract cell cultures, as well as an analysis of entry-factor distribution, enable screening for SARS-CoV-2 animal reservoirs.
Marine litter is composed mainly of plastics and is recognized as a serious threat to marine ecosystems. Ecotoxicological approaches have started elucidating the potential severity of microplastics ...(MPs) in controlled laboratory studies with pristine materials but no information exists on marine environmental microlitter as a whole. Here, we characterized the litter in the coastal Northern Tyrrhenian sea and in the stomach of two fish species of socio-economic importance, and exposed primary cell cultures of mucosal and lymphoid organs to marine microlitter for evaluating possible cytotoxic effects. An average of 0.30 ± 0.02 microlitter items m−3 was found in water samples. μFT-IR analysis revealed that plastic particles, namely HDPE, polyamide and polypropylene were present in 100% and 83.3% of Merluccius merluccius and Mullus barbatus analyzed, which overall ingested 14.67 ± 4.10 and 5.50 ± 1.97 items/individual, respectively. Moreover, microlitter was confirmed as a vector of microorganisms. Lastly, the apical end-point of viability was found to be significantly reduced in splenic cells exposed in vitro to two microlitter conditions. Considering the role of the spleen in the mounting of adaptive immune responses, our results warrant more in-depth investigations for clarifying the actual susceptibility of these two species to anthropogenic microlitter.
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•0.30 ± 0.02 microlitter items m−3 were found at the surface of coastal Northern Tyrrhenian sea.•14.67 ± 4.10 and 5.50 ± 1.97 items/individual were retrieved from the stomach of hakes and mullets.•The ingested microlitter contained plastic items.•Microlitter was validated as a carrier of bacteria, fungi and flagellates.•Splenic cells exposed to two microlitter conditions for 72 h suffered cytotoxicity
The field of intestinal biology is thirstily searching for different culture methods that complement the limitations of organoids, particularly the lack of a differentiated intestinal compartment. ...While being recognized as an important milestone for basic and translational biological studies, many primary cultures of intestinal epithelium (IE) rely on empirical trials using hydrogels of various stiffness, whose mechanical impact on epithelial organization remains vague until now. Here, we report the development of hydrogel scaffolds with a range of elasticities and their influence on IE expansion, organization, and differentiation. On stiff substrates (>5 kPa), mouse IE cells adopt a flat cell shape and detach in the short-term. In contrast, on soft substrates (80–500 Pa), they sustain for a long-term, pack into high density, develop columnar shape with improved apical-basal polarity and differentiation marker expression, a phenotype reminiscent of features in vivo mouse IE. We then developed a soft gel molding process to produce 3D Matrigel scaffolds of close-to-nature stiffness, which support and maintain a culture of mouse IE into crypt-villus architecture. Thus, the present work is up-to-date informative for the design of biomaterials for ex vivo intestinal models, offering self-renewal in vitro culture that emulates the mouse IE.
•Substrate rigidity guides the organization of intestinal epithelium (IE) and its differentiation.•Simple method for long-term in vitro cultures of IE on planar hydrogel substrates.•IE monolayers recapitulate features of in vivo intestinal epithelium.•3D scaffolds with mimetic crypt-villus structure are produced using soft hydrogels.•Ex vivo 3D intestinal model replicates key features of mouse small intestinal epitheliumManuscript # jbmt56984.
Passaged cell lines represent currently an integral component in various studies of malignant neoplasms. These cell lines are utilized for drug screening both in monolayer cultures or as part of ...three-dimensional (3D) tumor models. They can also be used to model the tumor microenvironment in vitro and in vivo through xenotransplantation into immunocompromised animals. However, immortalized cell lines have some limitations of their own. The homogeneity of cell line populations and the extensive passaging in monolayer systems make these models distant from the original disease. Recently, there has been a growing interest among scientists in the use of primary cell lines, as these are passaged directly from human tumor tissues. In this case, cells retain the morphological and functional characteristics of the tissue from which they were derived, an advantage often not observed in passaged cultures. This review highlights the advantages and limitations of passaged and primary cell cultures, their similarities and differences, as well as existing test systems that are based on primary and passaged cell cultures for drug screening purposes.
Mitotane is the only drug approved for the treatment of adrenocortical carcinoma (ACC). The regimen to be added to mitotane is a chemotherapy including etoposide, doxorubicin, and cisplatin. This ...pharmacological approach, however, has a limited efficacy and significant toxicity. Evidence indicates that ACC seems to be sensitive to alkylating agents. Trabectedin is an anti-tumor drug that acts as an alkylating agent with a complex mechanism of action. Here, we investigated whether trabectedin could exert a cytotoxic activity in in vitro cell models of ACC. Cell viability was evaluated by MTT assay on ACC cell lines and primary cell cultures. The gene expression was evaluated by q-RT-PCR, while protein expression and localization were studied by Western blot and immunocytochemistry. Combination experiments were performed to evaluate their interaction on ACC cell line viability. Trabectedin demonstrated high cytotoxicity at sub-nanomolar concentrations in ACC cell lines and patient-derived primary cell cultures. The drug was able to reduce /β catenin nuclear localization, although it is unclear whether this effect is involved in the observed cytotoxicity. Trabectedin/mitotane combination exerted a synergic cytotoxic effect in NCI-H295R cells. Trabectedin has antineoplastic activity in ACC cells. The synergistic cytotoxic activity of trabectedin with mitotane provides the rationale for testing this combination in a clinical study.
Several studies have proved that glial cells, as well as neurons, play a role in pain pathophysiology. Most of these studies have focused on the contribution of central glial cells (e.g., microglia ...and astrocytes) to neuropathic pain. Likewise, some works have suggested that peripheral glial cells, particularly satellite glial cells (SGCs), and the crosstalk between these cells and the sensory neurons located in the peripheral ganglia, play a role in the phenomenon that leads to pain. Nonetheless, the study of SGCs may be challenging, as the validity of studying those cells in vitro is still controversial. In this study, a research protocol was developed to examine the potential use of primary mixed neuronal–glia cell cultures obtained from the trigeminal ganglion cells (TGCs) of neonate mice (P10–P12). Primary cultures were established and analyzed at 4 h, 24 h, and 48 h. To this purpose, phase contrast microscopy, immunocytochemistry with antibodies against anti-βIII-tubulin and Sk3, scanning electron microscopy, and time-lapse photography were used. The results indicated the presence of morphological changes in the cultured SGCs obtained from the TGCs. The SGCs exhibited a close relationship with neurons. They presented a round shape in the first 4 h, and a more fusiform shape at 24 h and 48 h of culture. On the other hand, neurons changed from a round shape to a more ramified shape from 4 h to 48 h. Intriguingly, the expression of SK3, a marker of the SGCs, was high in all samples at 4 h, with some cells double-staining for SK3 and βIII-tubulin. The expression of SK3 decreased at 24 h and increased again at 48 h in vitro. These results confirm the high plasticity that the SGCs may acquire in vitro. In this scenario, the authors hypothesize that, at 4 h, a group of the analyzed cells remained undifferentiated and, therefore, were double-stained for SK3 and βIII-tubulin. After 24 h, these cells started to differentiate into SCGs, which was clearer at 48 h in the culture. Mixed neuronal–glial TGC cultures might be implemented as a platform to study the plasticity and crosstalk between primary sensory neurons and SGCs, as well as its implications in the development of chronic orofacial pain.
Pattern recognition receptors participate in the innate immune response. Among PRRs, the cGAS/STING pathway is known to detect cytosolic DNA and cyclic dinucleotides, but it's also important in RNA ...virus infection. We aimed to evaluate the gene expression of some important genes of cGAS/STING pathway and to correlate this expression with Zika virus kinetics in mice microglia and neurons. Cells were infected by MOI = 1.0. Indirect immunofluorescence, plaque titration of supernatant, extraction, and quantification of total intracellular RNA, RT-qPCR and Western blotting were performed. Plaque titration profile in microglia and neurons was similar, including higher titers of plaque forming units at 24, 48, 72 and 96 hpi, respectively. ZIKV kinetics evaluated by RT-qPCR was similar in both cells, with highest viral titers at 48, 72, 24 and 96 hpi, respectively. Expression profile of cGAS, STING, INF-α and INF-β was quite different between the cells, including gene suppression, as observed for cGAS in neurons. Our results showed a differentiated expression profile of cGAS/STING pathway genes in mice microglia and neurons, which can be explained by the different mechanisms that ZIKV uses to bypass the immune response of these cells. Furthermore, each cell type responds differently to combat the viral infection.
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