Search Results (976)

Current wound healing strategies must confront numerous challenges. Helminth-induced immunomodulation offers a promising therapeutic avenue for inflammatory diseases and injury repair. However, research on the role of helminths in damage recovery remains limited. We utilized glycogen—a naturally occurring biomaterial—to encapsulate SJMHE1, a bioactive peptide derived from Schistosoma japonicum, and successfully developed a facilely prepared hydrogel formulation denoted as SJMHE1-gel. The properties of SJMHE1-gel, its effect on cell activity, and its performance in a murine full-thickness skin defect model were evaluated. The glycogen-based hydrogel exhibited a uniform pore size, excellent biocompatibility, and sustained release of SJMHE1. Topical application of SJMHE1-gel enhanced collagen deposition, promoted angiogenesis, facilitated the regeneration of hair follicles and sebaceous glands, and accelerated full-thickness wound healing. SJMHE1-gel also promoted M2 macrophage polarisation and suppressed inflammatory cytokine expression both in vivo and in vitro. Mechanistically, SJMHE1-treated macrophages upregulate TGF-β, which in turn promotes the migration of L929 fibroblasts and human umbilical vein endothelial cells (HUVECs) via the Smad3 pathway. Neutralization of TGF-β attenuates phosphorylated Smad3 (p-Smad3) levels and impairs the migratory capacity of both fibroblasts and HUVECs. Additionally, SJMHE1-treated macrophages upregulate VEGFA, thereby enhancing angiogenic tube formation in HUVECs. This easy-to-prepare hydrogel can regulate macrophage polarization, inhibit inflammation, promote angiogenesis, and accelerate collagen deposition, acting across wound healing stages to provide a novel therapeutic strategy. Full article

Timely and accurate detection of sow oestrus is crucial for enhancing reproductive efficiency and reducing non-productive days (NPDs) in large-scale pig farms. However, traditional manual observation is labour-intensive and subjective, while cloud-based deep learning solutions face challenges such as high latency and privacy risks when applied in intensive housing environments. This study developed an edge-intelligent monitoring system that integrates deep temporal modelling with sound source localisation technology. A three-stage hierarchical screening strategy was utilised to select and deploy a lightweight Stacked-LSTM model on the resource-constrained ESP32-S3 hardware platform. This model was trained and calibrated using a high-quality acoustic dataset validated against serum reproductive hormones, specifically follicle-stimulating hormone (FSH), luteinising hormone (LH), and progesterone ($P_4$). Experimental results demonstrate that the optimised model achieved a classification accuracy of 96.17%, with an inference latency of only 41 ms, thereby fully satisfying the stringent real-time monitoring requirements while maintaining a minimal memory footprint. Furthermore, the system integrates a localisation algorithm based on Generalised Cross-Correlation with Phase Transform (GCC-PHAT). Through spatial geometric modelling, the system successfully implements the functional mapping of vocalisation events to individual gestation stalls (Stall IDs). Laboratory pressure tests validated the robustness and low-cost deployment advantages of the “edge recognition–cloud synchronization” architecture, providing a reliable technical framework for the precision management of smart livestock farming. Full article

Mesenchymal stem cells (MSCs) are candidates for the treatment of palatal wounds in combination with biomaterials. In this study, we developed a method for the production of a ready-to-use mucoadhesive hydrogel containing MSCs for palatal wounds and evaluated its healing effects. Dental follicle MSCs (DFMSCs) were isolated from the dental follicle tissue of a healthy twenty-year-old donor. DFMSCs were suspended in a cell-preserving solution containing platelet-rich plasma, trehalose, and DMSO, and loaded into a catechol–chitosan hydrogel solution at a ratio of 1:400 (v/v) with 5 × 10⁵ or 6 × 10⁶ cells per hydrogel to create a novel lyophilization method for cell integration into the biomaterial. Hydrogels were fabricated as scaffolds with a diameter of 5 mm and a depth of 4 mm. After lyophilization of the hydrogels with cells, a viability test was performed after the production of hydrogels on the seventh day and the fifth month. Palatal wounds were created as full-thickness wounds in rats using a 5 mm diameter punch. The hydrogels were applied to the palatal wounds of rats, and histochemical and immunohistochemical analyses were performed. The results showed that, after rehydration of the hydrogels, DFMSCs had over 80% viability and were homogeneously distributed in the hydrogels. After the application of DFMSC-loaded hydrogels, palatal wounds healed within 7 days, and inflammatory cell infiltration, fibroblastic proliferation, and ulceration were significantly reduced, while epithelial regeneration was significantly increased compared to the control group. The viability ratio of DFMSCs was 83.7% on the seventh day and 71.3% in the fifth month. Hydrogels loaded with DFMSCs represent a promising, ready-to-use biomaterial approach for supporting palatal wound healing. Full article

Paediatric gonadotoxic treatments can compromise male fertility, yet prospective data systematically tracking pubertal development are scarce. Immature testicular tissue banking (TTB) has been introduced as an experimental fertility preservation option for (pre-)pubertal boys, but its long-term safety and interaction with gonadotoxic treatment are not fully understood. This single-centre prospective cohort study systematically followed 23 boys, treated for malignant or non-malignant conditions, between 2017 and 2025 [median 4.0 (0.1–6.9) years], including 15 who underwent TTB. Unlike previous studies, this research combined repeated assessments of pubertal staging, testicular volumes, parenchymal integrity, reproductive hormones, and bone age and density, enabling a multidimensional evaluation of pubertal development. Gonadotoxic treatments, particularly myeloablative conditioning, were associated with reduced post-pubertal testicular volumes and altered hormone profiles, including elevated luteinising hormone and follicle-stimulating hormone, and reduced inhibin B, while anti-Müllerian hormone remained largely stable. Puberty occurred spontaneously and testosterone production was preserved in all patients. The testicular parenchyma appeared unaffected by the biopsy, and although some biopsied testes showed lower volumes, similar reductions could be observed in non-biopsied testes. These results support the safety of TTB, with no evident adverse effects on testicular structure or function; however, larger multicentric prospective studies are needed to confirm these findings. Full article

The compatibility of economic efficiency and animal welfare is a major challenge given the increasing demand for animal-based foods. Various studies have shown that it is possible to promote the resistance and robustness of commercial poultry (primarily broilers) by modifying incubation temperatures. Focused on the histology of the Bursa fabricii, an important lymphatic organ in birds, the investigations in this paper aim to show whether short-term temperature changes during final incubation (+1 °C, 2 h/incubation day 17–20) could have an influence on the robustness of broilers compared to conventionally incubated ones. Overall, however, the temperature stimulation during final embryonic development did not result in any statistically significant morphological changes in the bursa or in the heterophil-to-lymphocyte ratio (HLR) that would clearly indicate improved immune function. However, there are obvious sex-specific differences. For instance, a sexual dimorphism could be seen in the parameters of follicle number, follicle density and in the HLR when looking at the absolute numbers. Calculation of the effect size using Cohen’s d showed that there was an effect on the relative weight of the Bursa fabricii (d = −0.28, d ♂ = −0.25, d ♀ = −0.35) cell density (d ♀ = −0.32), follicle density (d ♀ = 0.37) and the HLR (d = 0.24, d ♂ = 0.43), so that further investigations should be encouraged. Full article

Ovarian follicular development determines the egg-laying performance in chickens. Besides hormonal signaling, epigenetic and post-transcriptional regulators, long non-coding RNAs (lncRNAs) also play a vital role in follicular development. We previously identified that RAR-related orphan receptor B-intronic transcript 1 (RORB-IT1), a novel lncRNA located in the intron of RORB, was differentially expressed in chicken pre-hierarchical and hierarchical follicular granulosa cells (Post-GCs). However, it remains unknown whether RORB-IT1 participates in regulating the development of chicken ovarian follicles. In this study, we further characterized the expression pattern of RORB-IT1 and explored its role in regulating the progesterone synthesis, proliferation and apoptosis of chicken Post-GCs. The results showed that RORB-IT1, with a full length of 383 bp, exhibits a uniform distribution in both the cytoplasm and nucleus of chicken Post-GCs. RORB-IT1 was specifically expressed in Post-GCs and upregulated by follicle-stimulating hormone (FSH), progesterone (P4) and estradiol (E2) in a dose-dependent manner. Functionally, RORB-IT1 promoted P4 synthesis and proliferation, while inhibiting the apoptosis of Post-GCs. Furthermore, we demonstrated that RORB-IT1 encoded a functional micropeptide exhibiting dual localization in both cytoplasmic and nuclear compartments. This micropeptide enhanced progesterone synthesis and proliferation, but paradoxically induced the apoptosis of Post-GCs when overexpressed independently. Collectively, this study uncovered the expression pattern and function of RORB-IT1 in chicken Post-GCs and provided a theoretical basis for improving the egg-laying performance in chickens. Full article

Background/Objectives: Lifestyle interventions are first-line treatment for women with polycystic ovary syndrome (PCOS) to improve metabolic health. Impacts on reproductive function are less clear. Previous research has been limited by inconsistencies in evaluation of ovulatory function and lack of comparisons between women with and without PCOS. Methods: The present study implemented a prospective clinical trial of 28 women (PCOS, N = 10 and Non-PCOS Control, N = 18) undergoing a 1-month baseline assessment followed by a 6-month hypocaloric dietary intervention. Results: Both groups reached clinically meaningful weight loss with the intervention (PCOS group: 6.5 ± 5.5%; Non-PCOS Control group: 10.0 ± 4.7%). Largest follicle diameter and growth rate of ovulatory dominant follicle, menstrual cycle length and luteal phase length did not change during the intervention in either group (all p > 0.05). The Non-PCOS Control group had increased mid-luteal phase progesterone levels and secretory phase maximum endometrial thickness during the intervention (all p < 0.05), whereas the PCOS group showed a reduction in follicular phase length (p < 0.05). Additionally, changes in ovulatory function and endometrial development were not associated with the rate of weight loss (all p > 0.05). Conclusions: This study demonstrates that women with PCOS are unlikely to experience changes in menstrual cyclicity and endometrial development with a short-term hypocaloric dietary intervention. The shortening of the follicular phase suggests that women with PCOS may need a longer intervention to achieve clinically meaningful improvements in ovulatory function and endometrial health. Full article

Background: Follicle-stimulating hormone (FSH)-based vaccines show the potential to disrupt spermatogenesis without disturbing sexual function and libido in males. Herein, we developed a novel FSH vaccine based on the tandem of a conserved 13-amino acid receptor-binding epitope of FSHβ (FSHβ13AA-T) and tested its effect on reproductive physiology and function using the male mouse as a model. Methods: Serum reproductive hormone levels, testicular histology, daily sperm production, sperm motility, libido and fertility of male mice following FSH vaccination were determined. Results: Compared to placebo-immunized controls, FSH vaccination triggered (p < 0.05) marked antibody generation, inhibited spermatogenesis and reduced sperm motility (p < 0.05), without adverse effects on serum LH and testosterone levels as well as the libido of male mice. Mechanistically, FSH vaccination suppressed (p < 0.05) testicular local estrogen production by downregulated aromatase encoding gene Cyp19a1 expression and also downregulated (p < 0.05) expression of key spermatogenic genes in testes, including Creb, INHα, Wnt2, Aqp8, Cmtm2a and Spata19, thus disrupting and impairing spermatogenesis and sperm motility. Conclusions: These results demonstrate that immunization of male mice against FSHβ13AA could substantially inhibit spermatogenesis and reduce sperm motility. Thus, FSHβ13AA-based vaccines hold potential for development as male contraceptives that do not compromise libido in species including men in which FSH is essential for spermatogenesis. Full article

Background: Environmental agents can disrupt thyroid function at several levels, including the synthesis, action, and excretion of thyroid hormones, and an inadequate concentration of thyroid hormones affects almost all organs and systems. Objective: The present study aimed to evaluate the histology and presence of the cytokines TNFα, IL-6, and IL-10 in the thyroid gland by immunohistochemical labeling, as well as the body weight and craniocaudal length of pups of Wistar rats exposed to ambient air in the vicinity of the Capuava Petrochemical Complex (CPC), located in the Santo André and Mauá cities, at São Paulo State, Brazil. Methods: This study used Wistar rats between 14 and 16 weeks of age, distributed in couples, that were exposed to pollution from the CPC located in the regions of Santo André and Mauá, Sao Paulo State, Brazil. One couple was positioned 600 m (SS1), and another was 1000 m (SS2) from the CPC, while the control group was kept at the animal research facility of the Physiology Laboratory of the FMABC University Center, Santo André. After mating, the resulting offspring were monitored for four weeks, with their body weight and craniocaudal length measured weekly. Subsequently, the offspring’s thyroid glands were histologically analyzed using H&E staining and immunohistochemistry to detect the presence of inflammatory cytokines (TNF-α, IL-6, and IL-10). Results: In the SS1 group, the thyroid glands showed follicular heterogeneity with macrofollicles and numerous microfollicles without colloid, lined by flattened epithelial cells. In these thyroid follicles, there was intense TNFα (p = 0.002) staining, slight IL-6 staining (p = 0.042), and significantly stronger staining for IL-10 (p = 0.013) compared to that in the control group. This group also had a significantly lower body weight than the control animals on the 6th, 13th, and 20th days of life. In the SS2 group, the thyroids presented an architecture dominated by microfollicles without colloid as well as inflammatory cells in the colloid of some follicles. Immunohistochemistry revealed intense pan-follicular TNFα (p = 0.002) staining, with additional cytoplasmic staining of IL-6 (p = 0.040) and IL-10 (p = 0.006). The SS2 group also showed a more pronounced deficit compared to the SS1 group in terms of birth weight. The cranial–caudal length was shorter on the 13th and 20th days of life in the SS1 and SS2 groups compared to the control group. Conclusions: The results indicate that proximity of rats to the CPC was a determining factor in the development of histological abnormalities and increases in inflammatory cytokine markers in the thyroid glands of the offspring. In addition, the offspring born near the CPC had lower birth weights and shorter craniocaudal lengths compared to the animals in the control group. Full article

This study evaluated the effects of supplementing methionine to a low-protein diet on nutrient digestibility, nitrogen (N) metabolism, growth performance, serum biochemical parameters, fur quality, and intestinal microbiota composition in blue foxes (Vulpes lagopus) during the fur-growing period. Fifty 17-week-old blue foxes were randomly allocated to five experimental groups (n = 10 per group). The control group received a diet containing 28% crude protein (CP), while the experimental groups were fed a 22% CP diet supplemented with 0%, 0.35%, 0.55%, or 0.75% methionine on a dry matter (DM) basis, designated as M0, M1, M2, and M3, respectively. Results demonstrated that the final body weight (FW), total weight gain (TW), and average daily gain (ADG) of the M3 group were comparable to the control group (p > 0.05). Methionine supplementation significantly enhanced fur quality and stimulated hair follicle development (p < 0.05). Although the reduction in dietary protein level led to decreased N intake and fecal N excretion, the M2 and M3 groups exhibited significantly higher N retention compared to the control, M0, and M1 groups (p < 0.05). Regarding nutrient digestibility, the M2 and M3 groups showed higher DM digestibility (p < 0.05), while the M3 group maintained organic matter (OM) digestibility comparable to the control group (p > 0.05). The highest CP digestibility was observed in the M3 group (p < 0.05). Additionally, ether extract (EE) digestibility was significantly improved in the methionine-supplemented groups (M1–M3) relative to the control (p < 0.05). Serum analysis revealed dose-dependent increases in total protein (TP), albumin (ALB), and high-density lipoprotein (HDL) concentrations in the M2 and M3 groups. Conversely, low-density lipoprotein (LDL) levels were elevated in these groups compared to the control and M0 groups (p < 0.05). Liver function parameters were also significantly improved in the M2 and M3 groups (p < 0.05). Furthermore, methionine supplementation enhanced the diversity and richness of the intestinal microbiota and altered its composition at the phylum and genus levels. In conclusion, supplementing low-protein diets with methionine can maintain growth performance, improve fur quality, enhance nutrient utilization efficiency, and support intestinal microbiota homeostasis in blue foxes. The optimal supplementation level is 0.75%, resulting in a total dietary methionine concentration of 1.1% on a DM basis. Full article

This study systematically measured gross hair weight and hair length traits across five body regions of 759 Tianzhu White Yak individuals. The BSL trait exhibited moderate heritability, while the BL trait demonstrated high heritability (h² = 0.450). All other traits showed low heritability. GWASs were conducted using whole-genome resequencing data comprising 22,566,255 high-quality SNP loci. The MLM model identified 519 genome-wide significant loci and 767 chromosome-wide significant loci. Chromosome 6 harbored the highest number of significant SNP loci, while the remaining significant loci were distributed across multiple autosomes. Strong long-range linkage disequilibrium (r² > 0.7) was observed between numerous significant SNPs on chromosome 6 associated with Gw and HL traits. A total of 73 candidate genes were annotated, including FGF5, CFAP299, and PRDM8. Functional enrichment analysis based on the GO and KEGG databases revealed significant enrichment in cytoplasm and the MAPK signaling pathway. Sanger sequencing results revealed that mutations in the FGF5, CFAP299, PRDM8, ANTXR2, and GPHB5 genes significantly affected the Gw, HL, and BSL traits of Tianzhu White Yak (p < 0.01). Linkage disequilibrium analysis indicated strong linkage disequilibrium (r² > 0.6) among Sanger-sequenced SNP loci on the same chromosome. From a biological perspective, multiple candidate genes such as FGF5 and CFAP299 are involved in hair follicle cycle regulation, cell proliferation, and metabolic control, suggesting its potential role in hair follicle development and hair shaft growth. This study identifies candidate loci and genes for gross hair weight and hair length traits in Tianzhu White Yak, contributing to elucidating the genetic mechanisms underlying hair production performance. Full article

Precise regulation of ovarian glucose metabolism and steroidogenesis is pivotal for the reproductive success of seasonal breeders. This study investigated seasonal variations in ovarian glucose metabolism and its association with follicular development and steroidogenesis in wild ground squirrels (Spermophilus dauricus). Results showed that ovarian weight and volume, and serum levels of luteinizing hormone (LH), follicle-stimulating hormone (FSH), 17β-estradiol, and progesterone were significantly higher in the breeding season (BS) than in the non-breeding season (NBS). Ovarian glycogen content was elevated in the BS, whereas circulating glucose levels decreased remarkably. Histologically, the BS ovaries contained follicles at all developmental stages (primary to Graafian) and corpora lutea, while corpora lutea were absent in the NBS. Integrated transcriptomic and metabolomic analyses revealed upregulated glycogen synthesis, glycolytic pathways, and altered steroidogenic metabolites in the BS. Quantitative real-time PCR (qRT-PCR) confirmed higher expression of glucose transporter 1 (GLUT1), glucose metabolism-related enzymes (G6PD, PFKFB3, PFKM), glycogen synthase (GYS), and steroidogenic factors (StAR, P450scc, P450c17, 3β-HSD, P450arom) in the BS, whereas glycogen synthase kinase-3β (Gsk-3β) was upregulated in the NBS. Immunohistochemistry demonstrated colocalization of steroidogenic and glucose-metabolizing enzymes in granulosa and theca cells, and correlation analyses confirmed positive associations between glucose metabolism, steroidogenesis, and ovarian weight. Collectively, these findings indicate that enhanced ovarian glucose metabolism in the BS is tightly coupled with elevated steroidogenesis, synergistically promoting seasonal follicular development and ovulatory competence in this species. Full article

Hair loss is a common condition that affects a large number of people worldwide, impacting both men and women. Its development is closely linked to the function of hair follicle dermal papilla cells (HFDPCs), which play a pivotal role in maintaining hair growth and follicle integrity. However, these cells are particularly vulnerable to oxidative stress generated under psychological or environmental stressful conditions. Preserving the mitochondrial function and biological activity of HFDPCs is critical for preventing stress-related hair loss. This study investigated the protective and hair growth-promoting effects of 3-hydroxypropionic acid (3-HP), a naturally occurring organic acid with antioxidant potential, on HFDPCs exposed to H₂O₂-induced oxidative stress conditions. Treatment with 3-HP significantly enhanced cell viability and migration in H₂O₂-damaged HFDPCs. In addition, 3-HP reduced intracellular reactive oxygen species (ROS) accumulation and improved mitochondrial membrane potential as well as ATP production. Furthermore, 3-HP upregulated alkaline phosphatase (ALP) expression and activated hair growth-related signaling pathways, including the Wnt/β-catenin axis. Finally, treatment with 3-HP resulted in a significant enlargement of three-dimensional spheroids in H₂O₂-damaged HFDPCs. These findings suggest that 3-HP mitigates oxidative stress-induced damage and promotes hair follicle cell function, indicating its promise as a treatment option for improving oxidative stress-related hair loss conditions. Full article

Deoxynivalenol (DON) is a common mycotoxin in cereal crops such as corn, wheat, and their processed products. It can cause feed refusal and growth retardation in piglets. This study systematically evaluated the effects of dietary exposure to purified DON at low doses of 0.25, 0.5, 1.0, and 2.0 mg/kg on growth performance, blood biochemistry, antioxidant capacity, immune function, intestinal health, and reproductive development in female weaned piglets over a 42-day period. Although dietary exposure to 0.25–2.0 mg/kg of DON did not significantly affect growth performance, it induced subclinical multi-organ toxicity. Notably, decreased platelet count (PLT) at 0.25–2.0 mg/kg and increased serum alanine aminotransferase (ALT) activity at 2.0 mg/kg were observed. DON exposure also impaired antioxidant function with reduced serum total antioxidant capacity (T-AOC) at 0.25–2.0 mg/kg, and elevated malondialdehyde (MDA) content in the jejunum and ileum at 0.5–2.0 mg/kg. Furthermore, at all doses tested (0.25–2.0 mg/kg), DON suppressed anti-inflammatory cytokine interleukin-10 (IL-10) levels in both serum and intestine, reduced duodenal villus height (VH), and decreased serum follicle-stimulating hormone (FSH) and luteinizing hormone (LH) levels. Additionally, histopathological injuries of liver, kidney, duodenum, jejunum, ileum, uterus and ovaries were also observed at doses of 1.0–2.0 mg/kg. In summary, this study confirms the multi-organ toxicity of low-dose DON in piglets. Our findings suggest that DON concentrations in pig feed should be more strictly controlled and highlight the importance of considering subclinical health endpoints, such as oxidative stress markers and immune parameters, in future risk assessments of mycotoxin exposure. Full article

The increasing biomedical and conservation interest in porcine species has driven the development of advanced in vitro follicle culture systems designed to preserve genetic diversity and accurately model key stages of folliculogenesis. This study assessed a three-dimensional (3D) alginate-based system for the in vitro culture of porcine preantral follicles, aiming to overcome the structural limitations of conventional two-dimensional (2D) methods. A total of six experimental groups were established, consisting of group-cultured (four follicles/well) or individually cultured (one follicle/well) follicles maintained either without alginate (0%) or encapsulated in 0.5% or 1% alginate for 14 days in media supplemented with FSH, EGF, and IGF-I, with LH added from day 9. Follicular development was assessed by morphometric evaluation, image-based and histological analyses, and quantification of steroid hormones in media collected every 48 h. Group-cultured follicles encapsulated in 0.5% alginate most effectively maintained their 3D architecture, reached the largest diameters, and progressed more uniformly compared with other groups. In contrast, follicles cultured without alginate rapidly lost structural integrity, showed granulosa cell migration, and decreased in size, whereas those encapsulated in 1% alginate exhibited restricted growth. Estradiol and testosterone concentrations increased over time in the 0.5% alginate group, were lowest without alginate, and intermediate in 1% alginate. Individually cultured follicles exhibited reduced growth and lower total hormone production compared with group-cultured follicles; however, when normalized per-follicle, steroid secretion, particularly in the 0.5% alginate group, was enhanced, indicating increased steroidogenic efficiency on a per-follicle basis. These findings indicate that 0.5% alginate provides an optimal balance between structural support and physiological steroidogenesis during preantral follicle culture. This 3D system improves the biological relevance of porcine follicle culture and may support future applications in reproductive biology, conservation, and genetic resource preservation. Full article