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Therapeutic treatment forms can play significant roles in resolving psoriatic plaques or promoting wound repair in psoriatic skin. Considering the biocompatibility, mechanical strength, flexibility, and adhesive properties of silk fibroin sheets/films, it is useful to combine them with anti-psoriatic agents and healing stimulants, notably silk sericin. Here, we evaluate the curative properties of sericin-coated thin polymeric films (ScF) fabricated from silk fibroin, using an imiquimod-induced psoriasis rat model. The film biocompatibility and psoriatic wound improvement capacity was assessed. A proteomics study was performed to understand the disease resolving mechanisms. Skin-implantation study exhibited the non-irritation property of ScF films, which alleviate eczema histopathology. Immunohistochemical and gene expression revealed the depletion of β-defensin, caspase-3 and -9, TNF-α, CCL-20, IL-1β, IL-17, TGF-β, and Wnt expressions and S100a14 mRNA level. The proteomics study suggested that ScF diminish keratinocyte proliferation via the mTOR pathway by downregulating mTOR protein, corresponding to the modulation of TNF-α, Wnt, and IL-1β levels, leading to the enhancement of anti-inflammatory environment by IL-17 downregulation. Hematology data demonstrated the safety of using these biomaterials, which provide a potential therapeutic-option for psoriasis treatment due to desirable effects, especially anti-proliferation and anti-inflammation, functioning via the mTOR pathway and control of IL-17 signaling.

Knee osteoarthritis is a chronic joint disease mainly characterized by cartilage degeneration. The treatment is challenging due to the lack of blood vessels and nerve supplies in cartilaginous tissue, causing a prominent limitation of regenerative capacity. Hence, we investigated the cellular promotional and anti-inflammatory effects of sericin, Bombyx mori -derived protein, on three-dimensional chondrogenic ATDC5 cell models. The results revealed that a high concentration of sericin promoted chondrogenic proliferation and differentiation and enhanced matrix production through the increment of glycosaminoglycans, COL2A1, COL X, and ALP expressions. SOX-9 and COL2A1 gene expressions were notably elevated in sericin treatment. The proteomic analysis demonstrated the upregulation of phosphoglycerate mutase 1 and triosephosphate isomerase, a glycolytic enzyme member, reflecting the proliferative enhancement of sericin. The differentiation capacity of sericin was indicated by the increased expressions of procollagen12a1, collagen10a1, rab1A, periostin, galectin-1, and collagen6a3 proteins. Sericin influenced the differentiation capacity via the TGF-β signaling pathway by upregulating Smad2 and Smad3 while downregulating Smad1 , BMP2 , and BMP4 . Importantly, sericin exhibited an anti-inflammatory effect by reducing IL-1β, TNF-α, and MMP-1 expressions and accelerating COL2A1 production in the early inflammatory stage. In conclusion, sericin demonstrates potential in promoting chondrogenic proliferation and differentiation, enhancing cartilaginous matrix synthesis through glycolysis and TGF-β signaling pathways, and exhibiting anti-inflammatory properties.

Particulate matter 2.5 (PM 2.5 ) in the air enters the human body by diffusion into the blood. Therefore, hematological abnormalities might occur because of these toxic particles, but few studies on this issue have been reported. According to Cochrane guidance, we performed a systematic review on the relationship between exposure to PM 2.5 and the risk of hematological disorders. Ten articles were included in this review. Anemia was found among children and elderly populations with 2- to 5-year PM 2.5 exposure. Young children from mothers exposed to air pollution during pregnancy had a higher incidence of leukemia similar to the elderly. Supporting these data, outdoor workers also showed abnormal epigenetic modifications after exposure to very high PM 2.5 levels. Adults living in high PM 2.5 areas for 2 years were more likely to develop thrombocytosis. Finally, elderly populations with 7- to 8-year PM 2.5 exposure showed increased risks of venous thromboembolism. In conclusion, the associations between PM 2.5 and hematological aberrations among high-risk people with long-term exposure were reported.

The cytokine homologs, particularly transforming growth factor (TGF)-β, is a crucial immunomodulatory molecule and involved in growth and developmental processes in several helminths. In this study, the basic properties and functions of T. spiralis TGF-β homolog 2 (TsTGH2) were characterized using bioinformatics and molecular biology approaches. Bioinformatics analyses indicated that TsTGH2 belongs to the TGF-β subfamily. Recombinant TsTGH2 (rTsTGH2) expressed in Escherichia coli was used to produce a polyclonal antibody (pAb) in mice. Western blot and immunolocalization using pAb detected native TsTGH2 in crude worm antigens from muscle larvae and adults, showing it was mainly localized in the body wall muscles and the epithelia of the ovary and uterus. To assess the interplay between TsTGH2 and the human TGF-β signaling pathway, rTsTGH2 produced in a HEK293T cell was incubated with the SBE luciferase-HEK293 cell. The result indicated a significant increase in luciferase activity after treatment with rTsTGH2 compared to untreated control ( p  < 0.05). In conclusion, these findings are the first to characterize the basic properties and functions of TGF-β homologs in T. spiralis , demonstrating their interaction with the human TGF-β receptor. Further investigation is required to identify and optimize an appropriate expression system or conditions for TsTGH2. Additionally, studies are needed to clarify the specific role of native TsTGH2 in parasite development and host immunomodulation.

Primaquine (PQ) is the only antimalarial medication used to eradicate many species of Plasmodium gametocytes and prevent relapse in vivax and ovale malarias. PQ metabolites induce oxidative stress and impair parasitic mitochondria, leading to protozoal growth retardation and death. Collateral damage is also presented in mammalian host cells, particularly erythrocytes, resulting in hemolysis and tissue destruction. However, the underlying mechanisms of these complications, particularly the mitochondria-mediated cell death of the host, are poorly understood. In the present study, toxicopathological studies were conducted on a rat model to determine the effect of PQ on affected tissues and mitochondrial toxicity. The results indicated that the LD50 for PQ is 200 mg/kg. A high dose of PQ induced hemolytic anemia, elevated a hepatic enzyme (SGPT), and induced proximal tubular degeneration, ventricular cardiomyopathy, and mitochondrial dysregulation. In addition, PQ induced the upregulation of apoptosis-related proteins Drp-1 and caspase-3, with a positive correlation, as well as the pro-apoptotic mitochondrial gene expression of Bax, reflecting the toxic effect of high doses of PQ on cellular damage and mitochondrial apoptosis in terms of hepatotoxicity, nephrotoxicity, and cardiotoxicity. Regarding the risk/benefit ratio of drug administration, our research provides caution for the use of PQ in the treatment of malaria based on its toxicopathological effects.

Helminth infections remain a significant global health and economic burden, and the growing emergence of resistance to frontline anthelmintic drugs such as albendazole and ivermectin underscores the urgent need for novel therapeutic strategies. Flavonoids, a diverse group of plant-derived polyphenolic compounds, have gained attention for their broad-spectrum biological activities, including potential antiparasitic properties. This study aimed to investigate the anthelmintic potential of orange-derived flavonoids using two complementary models: the free-living nematode Caenorhabditis elegans (wild-type, albendazole-resistant, and ivermectin-resistant strains) and the muscle-stage larvae of Trichinella spiralis as a representative parasitic nematode. Among the five flavonoids tested, quercetin exhibited the strongest anthelmintic activity across all C. elegans strains and against T. spiralis , while demonstrating minimal cytotoxicity in human cell lines, indicating a favorable safety profile. To investigate its potential mode of action, electron microscopy was employed to assess morphological changes, while a mass spectrometry-based metabolomics approach was used to examine molecular mechanisms in T. spiralis treated with quercetin. The results showed that quercetin did not induce detectable morphological alterations but significantly disrupted multiple key metabolic pathways, particularly those associated with energy production, lipid metabolism, and mitochondrial function, indicating a systemic metabolic disturbance. These findings offer new insights into the metabolic effects of orange-derived flavonoids and underscore quercetin as a promising lead candidate for anthelmintic development.

The noncontagious immune-mediated skin disease known as psoriasis is regarded as a chronic skin condition with a 0.09–11.4% global prevalence. The main obstacle to the eradication of the disease continues to be insufficient treatment options. Sericin, a natural biopolymer from Bombyx mori cocoons, can improve skin conditions via its immunomodulatory effect. Many external therapeutic methods are currently used to treat psoriasis, but sericin-based hydrogel is not yet used to treat plaques of eczema. Through the use of an imiquimod rat model, this study sought to identify the physical and chemical characteristics of a silk sericin-based poly(vinyl) alcohol (SS/PVA) hydrogel and assess both its therapeutic and toxic effects on psoriasis. The cytokines, chemokines, and genes involved in the pathogenesis of psoriasis were investigated, focusing on the immuno-pathological relationships. We discovered that the SS/PVA had a stable fabrication and proper release. Additionally, the anti-inflammatory, antioxidant, and anti-apoptotic properties of SS/PVA reduced the severity of psoriasis in both gross and microscopic skin lesions. This was demonstrated by a decrease in the epidermal histopathology score, upregulation of nuclear factor erythroid 2-related factor 2 and interleukin (IL)-10, and a decrease in the expression of tumor necrosis factor (TNF)-α and IL-20. Moreover, the genes S100a7a and S100a14 were downregulated. Additionally, in rats given the SS/PVA treatment, blood urea nitrogen, creatinine, and serum glutamic oxaloacetic transaminase levels were within normal limits. Our findings indicate that SS/PVA is safe and may be potentiated to treat psoriasis in a variety of forms and locations of plaque because of its physical, chemical, and biological characteristics.

Pre-diabetic or early-stage type 2 diabetes patients may develop an adverse diabetic progression, leading to several complications and increasing hospitalization rates. Mulberry leaves, which contain 1-deoxynojirimycin (DNJ), have been used as a complementary medicine for diabetes prevention and treatment. Our recent study demonstrated that mulberry leaf powder with 12 mg of DNJ improves postprandial hyperglycemia, fasting plasma glucose, and glycated hemoglobin. However, the detailed mechanisms are still unknown. This study investigates the effect of long-term (12-week) supplementation of mulberry leaves in obese people with prediabetes and patients with early-stage type 2 diabetes. Participants’ blood was collected before and after supplementation. The protein profile of the plasma was examined by proteomics. In addition, the mitochondrial function was evaluated by energetic and homeostatic markers using immunoelectron microscopy. The proteomics results showed that, from a total of 1291 proteins, 32 proteins were related to diabetes pathogenesis. Retinol-binding protein 4 and haptoglobin protein were downregulated, which are associated with insulin resistance and inflammation, respectively. For mitochondrial function, the haloacid dehalogenase-like hydrolase domain-containing protein 3 (HDHD-3) and dynamin-related protein 1 (Drp-1) displayed a significant increment in the after treatment group. In summary, administration of mulberry leaf powder extract in prediabetes and the early stage of diabetes can alleviate insulin resistance and inflammation and promote mitochondrial function in terms of energy production and fission.

Invasive aspergillosis and scedosporiosis are life-threatening fungal infections with similar clinical manifestations in immunocompromised patients. Contrarily, Scedosporium apiospermum is susceptible to some azole derivative but often resistant to amphotericin B. Histopathological examination alone cannot diagnose these two fungal species. Pathogenesis studies could contribute to explore candidate protein markers for new diagnosis and treatment methods leading to a decrease in mortality. In the present study, proteomics was conducted to identify significantly altered proteins in A549 cells infected with or without Aspergillus fumigatus and S. apiospermum as measured at initial invasion. Protein validation was performed with immunogold labelling alongside immunohistochemical techniques in infected A549 cells and lungs from murine models. Further, cytokine production was measured, using the Bio-Plex-Multiplex immunoassay. The cytoskeletal proteins HSPA9, PA2G4, VAT1, PSMA2, PEX1, PTGES3, KRT1, KRT9, CLIP1 and CLEC20A were mainly changed during A. fumigatus infection, while the immunologically activated proteins WNT7A, GAPDH and ANXA2 were principally altered during S. apiospermum infection. These proteins are involved in fungal internalisation and structural destruction leading to pulmonary disorders. Interleukin (IL)-21, IL-1α, IL-22, IL-2, IL-8, IL-12, IL-17A, interferon-γ and tumour necrosis factor-α were upregulated in both aspergillosis and scedosporiosis, although more predominately in the latter, in accordance with chitin synthase-1 and matrix metalloproteinase levels. Our results demonstrated that during invasion, A. fumigatus primarily altered host cellular integrity, whereas S. apiospermum chiefly induced and extensively modulated host immune responses.

Psoriasis, a chronic inflammatory skin disorder affecting 2-3% of the global population, presents significant treatment challenges, including high recurrence, adverse effects, and socioeconomic burdens. This study explores the therapeutic potential of sericin-based nanofibers and rice-encapsulated nanosericin (ReS) as innovative treatments, aiming to address current limitations by enhancing drug delivery, stability, and efficacy, and providing a targeted approach to managing this complex condition. This study investigates the efficacy of sericin nanofibers and derivatives, including ReS, for psoriasis treatment using a 3D artificial human skin model. Comprehensive evaluations were conducted through histopathological, immunohistochemical, molecular, and proteomic analyses. Results showed that desolvation with glutaraldehyde crosslinking produced stable nanofibrils, while desolvation without crosslinking yielded nanogranules; nanoforms demonstrated high biocompatibility and safety. Treatments with sericin, rice extract, nanosericin, and ReS alleviated psoriasis-induced histopathology, with downregulation of IL-1β, WNT, and β-defensin particularly in the ReS and rice extract groups, suggesting an immunomodulatory effect. Caspase-3 reduction was more pronounced in the sericin and nanosericin groups. Proteomic analysis revealed notable exosomal protein involvement, with sericin modulating cell death through the PAK-2p34 pathway and proteasome activity, while nanosericin enhanced glycolysis and gluconeogenesis via exosomal proteins. Both ReS and nanosericin activated antioxidant pathways, mediated by upregulation of TGF-β and Nrf-2, respectively, especially sericin-based treatment through the selenoamino acid metabolism pathway. ReS further reduced keratinocyte differentiation by targeting cornified envelope proteins, correlating with reduced WNT expression. Gene expression analysis confirmed anti-inflammatory effects and skin barrier restoration, as evidenced by decreased S100-family proteins and increased filaggrin, caspase-14, and involucrin. ReS and nanosericin show significant therapeutic potential for psoriasis by targeting immunomodulatory pathways, modulating keratinocyte activity, reducing oxidative stress, and enhancing skin barrier restoration. Future research should optimize scalability, assess long-term safety, and explore synergistic effects with existing therapies, while further investigating molecular mechanisms for targeted treatment advancements.