Search Results (452)

The Mediterranean trout (currently referred to as Salmo ghigii for Corsican and Italian-native populations) is listed as Endangered in the IUCN Red List, due to fragmented distribution and declining populations across its whole range, and is included in Annex II of the European Habitat Directive. The widespread genome introgression from the invasive Atlantic trout (Salmo trutta), overexploitation, and habitat alterations represent major threats to the persistence of native populations. The LIFE18NAT/IT/000931 STREAMS project aims to enhance conservation status of Mediterranean trout in 6 Italian pilot areas (Maiella, Sibillini Mountains, Casentino Forests and Pollino National Parks, Montemarcello-Magra-Vara Regional Park, and Sardinia with five sites of the Natura 2000 Network), and in 19 transferability areas covering almost the whole Italian species range. To achieve this, the following conservation strategies were implemented: (i) the identification of residual native populations; (ii) eradication of entirely Atlantic-exotic populations and removal of hybrids in admixed populations; (iii) restocking/reintroduction of native populations; (iv) monitoring/improving the Mediterranean trout habitats quality; (v) production of the “Guidelines for the conservation and management of native Mediterranean trout and its habitat”; and (vi) the prevention of illegal stocking. Here, we present the project rationale, major outcomes on demographic and genetic characterization of wild populations, and summary results from conservation actions. Full article

Background/Objectives: Solanum macrocarpon L. has been studied for its neuroprotective potential and memory-enhancing properties. Research suggests that bioactive compounds, including flavonoids, alkaloids, and phenolics, contribute to its cognitive benefits. These compounds may help protect against oxidative stress, neuroinflammation, and cholinergic dysfunction factors in memory impairment. This study was undertaken to investigate the effects of S. macrocarpon ethanolic leaf extract (SMEE) on the memory, anxiety-like behavior, and brain antioxidant status of scopolamine (SCOP, 100 μM)-induced amnesic zebrafish (Danio rerio) and thus to understand its possible mechanism of action. Methods: Adult zebrafish (n = 100) were divided into two cohorts (±SCOP) of five experimental groups: (I) control; (II) galantamine (GAL, 1 mg/L), serving as a positive control for both behavioral and biochemical assessments; (III–V) three groups treated with SMEE (1, 3, and 6 mg/L); (VI) scopolamine (SCOP, 100 μM); (VII) SCOP (100 μM) combined with GAL (1 mg/L); and (VIII–X) three groups treated with SCOP (100 μM) plus SMEE (1, 3, and 6 mg/L). The treatment lasted 23 days and amnesia was induced by a single dose of SCOP (100 μM) before testing. Results: The phenolic characterization from the samples was performed by using HPLC-PDA chromatography. Following HPLC analysis, an in silico pharmacokinetic evaluation was conducted using the ADMET model to investigate the pharmacological and toxicological profiles of the identified compounds. Spatial memory was evaluated through the Y-maze and novel object recognition (NOR) tests, while anxiety-like behavior was assessed using the novel tank diving test (NTT), novel approach test (NAT), and light–dark test (LDT). The zebrafish were euthanized, and homogenates of isolated brain samples were assayed for acetylcholinesterase (AChE) activity and brain antioxidant markers. The HPLC analysis revealed that the main major compounds in the extract were chlorogenic acid and rutin, both recognized for their significant antioxidant properties. Conclusions: SMEE enhanced memory by inhibiting AChE, alleviated SCOP-induced anxiety-like behavior, and significantly decreased oxidative stress markers. These findings support the potential role of SMEE in counteracting SCOP-induced cognitive and behavioral dysfunctions, related to dementia conditions. Full article

Background: Neoadjuvant therapy (NAT) plays a crucial role in breast cancer (BC) management by enabling tumor and nodal downstaging. While axillary lymph node dissection (ALND) remains the standard for patients with residual nodal disease after NAT, its prognostic benefit is debated. Identifying predictors of high-burden residual axillary disease may guide treatment intensification and surgical de-escalation strategies. Methods: We retrospectively analyzed 262 BC patients treated with NAT followed by ALND between 2006 and 2023. Patients were stratified into low- (ypN0-mi-1) and high-burden (ypN2-3) residual axillary disease groups. Univariate and multivariate logistic regression analyses were performed to identify independent predictors of high-burden residual disease. Results: High-burden residual axillary disease was observed in 35.9% of patients. Baseline cN+ status (OR = 7.697, p = 0.013), HR+/HER2− subtype (OR = 3.945, p = 0.003), and larger post-NAT tumor size (OR = 1.043, p < 0.001) were independent predictors. Conclusions: Identifying patients at risk of high-burden residual axillary disease is essential to optimize neoadjuvant strategies. Increasing axillary pathological complete response may reduce the need for ALND, minimizing surgical morbidity without compromising oncological outcomes. Full article

Severe dental pulp inflammation can lead to tissue lysis and destruction, underscoring the necessity for effective treatment of pulpitis. N-acetyltransferase 10 (NAT10)-mediated N4-acetylcytidine (ac⁴C) modification has recently emerged as a key regulator in inflammatory processes. However, whether NAT10 affects the inflammatory response in human dental pulp stem cells (hDPSCs) remains unelucidated. In this study, elevated NAT10 expression was observed in pulpitis tissues and LPS-stimulated hDPSCs. Knockdown of NAT10 led to reduced inflammatory gene expression and lower reactive oxygen species (ROS) production in LPS-stimulated hDPSCs, while the chemotactic migration of macrophages was also suppressed. Similar results were observed when hDPSCs were treated with Remodelin, an inhibitor of NAT10. Differentially expressed genes identified through RNA sequencing were significantly enriched in inflammatory signaling pathways after NAT10 depletion. Among the differential genes, pentraxins 3 (PTX3) was identified as the potential target gene due to the presence of the ac⁴C modification site and its known ability to regulate dental pulp inflammation. The mRNA and protein levels of PTX3 were reduced in NAT10-deficient cells, along with a decrease in its mRNA stability. Exogenous PTX3 supplementation partially reversed the inflammatory inhibition induced by NAT10 knockdown. Further evidence in vivo revealed that Remodelin treatment attenuated the severity of dental pulp inflammation in rats with pulpitis. In summary, these data indicated that NAT10 deficiency inhibited the stability of PTX3 mRNA and further inhibited hDPSC inflammation, while Remodelin might be a potential therapeutic agent for pulp capping. Full article

This research aims to understand the experimental results on the high selectivity of Pb²⁺ removal over Cd²⁺ in natural and dealuminated rich-clinoptilolite. For this purpose, we have considered the results of experimental and Density Functional Theory (DFT)-based simulated annealing (SA) on sorption of Pb²⁺ and Cd²⁺ from aqueous solution. The dealumination process of natural clinoptilolite (Nat-CLI) was done by H₂SO₄ solutions at different concentrations (0.1–1.0 M). The results show that the maximum sorption capacity (q_,max) of Pb²⁺ and Cd²⁺ varied from 224.554 × 10⁻³ to 53.827 × 10⁻³ meq/g, and between 39.044 × 10⁻³ to 20.529 × 10⁻³ meq/g, respectively, when the values of Si/Al ratio change from 4.36 to 9.50. From a theoretical point of view, the global minimum energies of natural and dealuminated clinoptilolites before and after sorption of Pb²⁺ and Cd²⁺ were calculated by an SA method, where heating-cooling cycles were modeled by ab initio Molecular Dynamics followed by energy minimization. The theoretical results confirmed that for all Si/Al ratios, the sorption of Pb²⁺ and Cd²⁺ takes place, and for dealuminated systems, the exchange energy outcomes are more favorable for the Pb²⁺ cations. Since such energy differences are very small, it is not explained from a thermodynamic point of view. On the other hand, it could be understood from a kinetic perspective. In this way, we set that the atomic structural properties of the zeolite modify the first hydration coordination sphere of metal cations. Full article

Clear-cell renal cell carcinoma (ccRCC) is a kidney cancer associated with poor prognosis and limited treatment options. Identifying new prognostic markers is crucial. This study investigates the potential of BCL9 and TPX2, two proteins involved in cancer progression, to predict patient outcomes This study analyzed protein abundance data from the CPTAC cohort (110 ccRCC and 84 NAT samples) using LC-MS/MS. BCL9 and TPX2 were validated via immunohistochemistry (IHC) in an independent cohort (52 ccRCC samples). Patients were stratified into high- and low-expression groups based on IHC scores. Survival analyses were conducted, and Reactome pathway enrichment analysis was performed. BCL9 and TPX2 were significantly upregulated in ccRCC compared to NAT. In the validation cohort, high BCL9 levels were associated with shorter progression-free survival (PFS) but not OS, while high TPX2 levels correlated with shorter overall survival (OS) but not PFS. Pathway analysis linked BCL9 to Wnt signaling and TPX2 to cell cycle regulation. Elevated BCL9 and TPX2 are associated with poor prognosis in ccRCC. These proteins are potential prognostic markers and therapeutic targets. Full article

This study introduces a one-pot colorimetric nucleic acid test (NAT) platform that integrates silver nanoparticle (AgNP)-based DNA isolation and colorimetric detection of bacterial genes. The NAT platform is comprised with purification and reaction units that enable cell lysis, DNA purification, loop-mediated isothermal amplification (LAMP), and colorimetric detection. In the purification unit, polyethyleneimine (PEI)-capped AgNPs were used as cell lysis agents because of their cell-disrupting and antimicrobial properties and were immobilized on a glass fiber membrane for DNA capture and isolation. The reaction unit enabled colorimetric detection of DNA amplicons, achieved by the synthesis of AgNPs on chromatography paper formed via the reduction of silver ions present on the paper, mediated by the use of sodium ascorbate, a reducing agent, present in the LAMP reagent, after the reaction. AgNPs were formed only in the presence of the target amplicons in the positive samples after reaction at 65 °C for 5 min. Bacterial DNA was efficiently extracted using this method, and Enterococcus faecium was detected with a detection limit of 10² CFU/mL. This platform is a promising alternative for rapid and cost-effective nucleic acid testing in resource-limited settings. Full article

Female gametophyte development in flowering plants is a highly intricate process involving a series of tightly regulated biological events, including the establishment and differentiation of a macrospore mother cell (MMC), the formation of a functional macrospore (FM), and the subsequent development of the embryo sac. The seamless progression of these events is crucial for the completion of sexual reproduction and the alternation of generations in plants. Small RNAs are ubiquitously present in eukaryotic organisms. Based on their biogenesis, function, and involvement in biological pathways, plant small RNAs are primarily categorized into four classes: miRNAs (microRNAs), ta-siRNAs (trans-acting-siRNAs), hc-siRNAs (heterochromatic-siRNAs), and nat-siRNAs (natural antisense transcript-derived siRNAs). Current studies show that small RNAs play an important role in plant reproductive development, such as female gametophyte development and ovule development. In this review, we systematically elucidate the biogenesis and molecular mechanism of small RNAs and summarize the latest research advances on their roles in regulating megasporogenesis and megagametogenesis in plants. The aim of this review is to provide insights into the mechanisms underlying plant reproductive development through the lens of small RNAs, offering a theoretical foundation for improving crop quality, yield, genetic improvement, and breeding. Full article

Agriculture plays a dual role in shaping biodiversity, providing secondary habitats while posing significant threats to ecological systems through habitat fragmentation and land-use intensification. This study aims to assess the relationship between bird species composition and land-use types in Apulia, Italy. Specifically, we investigate how different agricultural and semi-natural landscapes influence avian biodiversity and which agricultural models can have a positive impact on biodiversity. Biodiversity indices were calculated for each bird community observed. The abundance curves showed a geometric series pattern for the AGR communities, indicative of ecosystems at an early stage of ecological succession, and a lognormal distribution for the MIX and NAT communities, typical of mature communities with a more even distribution of species. Analysis of variance showed significant differences in richness and diversity between AGR and NAT sites, but not between NAT and MIX, which had the highest values. Logistic regression estimated the probability of sites belonging to the three ecosystem categories as a function of biodiversity, confirming a strong similarity between NAT and MIX. Finally, linear discriminant analysis confirmed a clear separation from AGR areas, as evidenced by the canonical components. The results highlight the importance of integrating high-diversity landscape elements and appropriate agricultural practices to mitigate biodiversity loss. Even a small increase in the naturalness of agricultural land would be sufficient to convert it from the AGR to the MIX ecosystem category, with significant biodiversity benefits. Full article

Antituberculosis drug-induced hepatotoxicity (ATDH) is a common adverse drug reaction often requiring treatment interruption, complicating tuberculosis management. The slow acetylator phenotype, characterized by reduced N-acetyltransferase 2 (NAT2) enzyme activity, is associated with increased hepatotoxicity risk, while rapid acetylators are associated with a higher risk of therapeutic failure. This study investigates the association between the NAT2 acetylation phenotype and ATDH occurrence, with an emphasis on its predictive value in regard to a multiethnic population and its impact on the timing of ATDH onset. A retrospective observational study was conducted on tuberculosis patients treated at Luigi Sacco Hospital, Milan, Italy (July 2020–September 2023). The NAT2 genotyping identified slow and rapid/intermediate acetylators. Cumulative incidence analysis and Fine–Gray competing risks regression models were used to assess ATDH risk and onset timing. Among 102 patients, 21.6% developed ATDH, including 16.7% with slow and 4.9% with rapid/intermediate acetylators. ATDH onset was significantly earlier in regard to slow acetylators (median 0.5 vs. 2 months, interquartile range-IQR: 0.5–3 vs. 1.7–5.5). Slow acetylators were associated with a higher risk of developing ATDH (Sub-distribution hazard ratio, SHR = 3.05; 95% confidence interval-CI: 1.17–7.95; p = 0.02), even after adjusting for confounders. The NAT2 acetylation phenotype strongly influences ATDH risk and timing. Early acetylator status identification may enable dose adjustments, enhancing treatment safety. These findings highlight the role of pharmacogenetics in optimizing antituberculosis therapy by improving efficacy and minimizing toxicity. Full article

This review provides an in-depth analysis and comprehensive overview of recent advancements in MRI techniques for evaluating esophageal cancer (EC). It discusses the specific MRI acquisition protocols and parameters that enhance image quality and diagnostic accuracy. The review highlights MRI’s role and performance in the initial TNM staging and its potential to refine treatment strategies by improving tumor delineation and characterization. Additionally, the paper explores MRI utility in restaging after NAT, focusing on its accuracy in assessing treatment response and detecting residual or recurrent disease. Comparisons with other imaging modalities currently used—such as endoscopic ultrasound (EUS), contrast-enhanced computed tomography (CE-CT), and ¹⁸F-fluorodeoxyglucose (FDG) positron emission tomography/CT (PET/CT)—are included to highlight the strengths and limitations of each method. Illustrated with numerous Figures, this article proposes a novel MRI-based strategy for EC staging and restaging. It aims to integrate MRI into clinical practice by leveraging its superior soft-tissue contrast and functional imaging capabilities to enhance diagnostic precision and improve patient outcomes. Through this comprehensive evaluation, the review underscores the potential of MRI to become a cornerstone in the precision diagnosis and management of EC. Full article

The production and consumption of pork are substantial worldwide, with frozen pork being the primary form for storage and transportation. To evaluate the efficiency and quality of different thawing methods, we conducted experiments using 2 kg pork samples, comparing natural air thawing (NAT), vacuum steam thawing (VST), and a novel vacuum sublimation–rehydration thawing (VSRT). This study focused on evaluating the thawing efficiency, particularly energy consumption and thawing effectiveness, by analyzing key parameters such as the thawing time, thawing loss rate, and quality attributes. The results showed that VSRT achieved the shortest thawing time (54.60 min), with reductions of 55.37% and 34.61% compared to NAT and VST, respectively. VSRT also significantly reduced the thawing loss rate (by 85.66% and 79.27%) and total color difference (by 87.04% and 82.76%) compared to NAT and VST. The color and texture parameters of VSRT-thawed pork were closer to those of fresh meat (p > 0.05), while its specific energy consumption was 40.67% lower than that of VST. These findings highlight the potential of VSRT to preserve pork quality more effectively while offering faster thawing rates and lower energy consumption, making it a promising candidate for industrial-scale applications. Full article

Background/Objectives: Cutaneous leishmaniasis (CL) is a vector-borne neglected disease that can cause permanent deformities. Current chemotherapy based on injections with toxic drugs or oral miltefosine poses many drawbacks, urging the need for new oral therapies. Here, we proposed to increase the bioavailability of NAT22, an intralesionally but not orally active antileishmanial chalcone, through nanocrystallization to promote its oral use in CL. Methods/Results: NAT22 nanocrystals were produced using a solvent-free green process of dry and wet milling that reduced NAT22 crystal sizes by around 1500-fold to 257 nm (nanoNAT22). Such reduction in size increased water solubility by 15-fold to 4.3 µg/mL and ensured stability in the absence of stabilizers for at least one month. Of note, nanoNAT22 in aqueous medium was more selective for parasites (SI = 35.2) than NAT22 in 1% DMSO (SI = 7.6). Leishmania amazonensis-infected mice treated with oral nanoNAT22 had lesion sizes and parasite loads similar to those achieved with intralesional Glucantime^®, and significantly smaller than NAT22. Conclusions: Together, these results indicate that nanocrystallization is an effective process to render NAT22 chalcone also orally active against CL. Full article

Objectives: The aim of the present study was to assess the clinical value of measuring the concentration of neurofilament light chains (NF-Ls) in the diagnosis of taxane-induced neuropathy (CIPN) during neoadjuvant chemotherapy (NAC) in breast cancer patients. Methods: This study included a total of 94 patients who qualified for NAC with taxanes. Serum samples were collected before starting NAC, after three and six cycles, and 3–6 months after NAC. The NF-L concentration was determined using the Ella technology. The assessment of CIPN was based on the clinical symptoms included in the EORTC QLQ-CIPN20 scores. Results: The median NF-L concentrations increased during NAT monitoring. After the end of therapy, a significant decrease in NF-L concentrations was observed (p = 0.001, R = 0.37). We established a cut-off point of 29.5 pg/mL to distinguish between the control group and patients with early symptoms of neuropathy (CIPN G1) (p = 0.001; AUC = 0.982). We showed that NF-L concentrations, regardless of the stage of therapy, increased with the severity of neuropathy symptoms (CIPG1 vs. G2 vs. G3) (p = 0.0189, R = 0.33). According to the established cut-off points, serum NF-L concentrations above 196 pg/mL in patients undergoing therapy likely indicate the presence of low-grade neuropathy (p = 0.0076), while values above 218 pg/mL may indicate advanced CIPN (p = 0.0008). Conclusions: In this study, we demonstrated the usefulness of NF-L levels to confirm neuropathy early in the course of treatment, which is important as the questionnaire-based assessment of neuropathy currently used in practice remains subjective. Ultimately, serum NF-L levels are helpful in determining the severity of NAC-induced neuropathy among breast cancer patients. Full article

This study examines the influence of environmental concerns on water conservation behaviors among Gen Z tourists in Iranian desert regions by extending the Norm Activation Theory (NAT). Adopting a quantitative approach, data were collected through a structured questionnaire from 330 Gen Z tourists (born between 1997 and 2012) who visited four Iranian desert villages (Qale Bala, Mesr, Abyaneh, and Rezaabad) between April and July 2023. Using systematic sampling, every fifth Gen Z tourist was selected. Data were analyzed using Partial Least Squares Structural Equation Modeling (PLS-SEM). Results show that environmental concerns, situational responsibility, and personal norms positively impact water conservation behaviors, while denial of responsibility negatively affects them. Personal norms positively influence pride and guilt emotions, which in turn promote water conservation behaviors. The extended model, incorporating environmental concerns, demonstrated improved explanatory power over the original NAT. This research contributes to sustainable tourism literature by integrating environmental concerns and moral emotions into the NAT framework, offering insights into psychological mechanisms driving pro-environmental behaviors among Gen Z tourists in desert environments. Full article