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Fibroblast growth factor (FGF) is a broad class of secretory chemicals that act via FGF receptors (FGFR). The study aims to explore the role of a novel peptide, FAP1 (FGFR-agonistic peptide 1), in tissue regeneration and repair. It investigates whether FAP1 mimics basic fibroblast growth factor (bFGF) and accelerates wound healing both in vitro and in vivo. In this study, a novel peptide was designed and its ability to mimic bFGF was assessed through different in vitro experiments including its effect on cell proliferation, wound healing, cell signaling including FGFR1 phosphorylation and activation of mitogen-activated protein kinases (MAPKs). Specificity was confirmed through surface plasmon resonance (SPR) analysis and co-treatment with FGFR inhibitor, erdafitinib. In vivo, the effect of FAP1 on diabetic wound healing was tested in a mouse model, examining collagen production and the migration and proliferation of keratinocytes and fibroblasts. FAP1 specifically phosphorylated FGFR and activated MAPKs similar to bFGF. In vitro, it induced cell proliferation and accelerated wound healing. In vivo, FAP1 improved diabetic wound healing by increasing collagen production and promoting keratinocyte and fibroblast migration and proliferation. The specificity of FAP1 was confirmed through SPR. FAP1 shows potential as a novel pharmacological alternative to natural bFGF for skin tissue regeneration and repair. Its ability to accelerate wound healing and its specificity for FGFR suggest that FAP1 could serve as a cost-effective substitute for bFGF protein in therapeutic applications. Show less

RNA G-quadruplexes (rG4s) are non-canonical secondary nucleic acid structures found in the transcriptome. They play crucial roles in gene regulation by interacting with G4-binding proteins (G4BPs) in cells. rG4-G4BP complexes have been associated with human diseases, making them important targets for drug development. Generating innovative tools to disrupt rG4-G4BP interactions will provide a unique opportunity to explore new biological mechanisms and potentially treat related diseases. Here, we have rationally designed and developed a series of rG4-based proteolytic targeting chimeras (rG4-PROTACs) aimed at degrading G4BPs, such as DHX36, a specific G4BP that regulates gene expression by binding to and unraveling rG4 structures in messenger RNAs (mRNAs). Our comprehensive data and systematic analysis reveals that rG4-PROTACs predominantly and selectively degrade DHX36 through a proteosome-dependent mechanism, which promotes the formation of the rG4 structure in mRNA, leading to the translation inhibition of rG4-containing transcripts. Notably, rG4-PROTACs inhibit rG4-mediated APP protein expression, and impact the proliferative capacity of skeletal muscle stem cells by negatively regulating Gnai2 protein expression. In summary, rG4-PROTACs provide a new avenue to understand rG4-G4BP interactions and the biological implications of dysregulated G4BPs, promoting the development of PROTACs technology based on the non-canonical structure of nucleic acids. Show less

Binding of ANGPTL (angiopoietin-like protein)-3 to ANGPTL8 generates a protein complex (ANGPTL3/8) that strongly inhibits LPL (lipoprotein lipase) activity, as compared with ANGPTL3 alone, suggesting that ANGPTL3/8 concentrations are critical for the regulation of circulation lipoprotein concentrations and subsequent increased coronary heart disease (CHD) risk. To test this hypothesis in humans, we evaluated the associations of circulating free ANGPTL3 and ANGPTL3/8 complex concentrations with lipoprotein concentrations and CHD risk in 2 prospective cohort studies. Fasting blood samples were obtained in conjunction with the baseline evaluation of 9479 subjects from 2 population-based Swedish cohorts of middle-aged men and women. Standard biochemical blood analyses, including all lipid/lipoprotein measurements, were performed in these samples at baseline. Additional serum samples were stored at -80 °C and used at a later stage for ANGPTL3 and ANGPTL3/8 concentration measurements. Information about incident CHD was obtained for both cohorts by matching to the Swedish National Patient Register and the Cause of Death Register. ANGPTL3 concentrations showed modest, positive associations with all lipoprotein concentrations but were not associated with CHD risk. In contrast, ANGPTL3/8 concentrations were associated in both cohorts with an atherogenic lipoprotein profile (characterized by increased triglyceride and LDL [low-density lipoprotein] concentrations and reduced HDL [high-density lipoprotein] concentrations). In the combined cohort, ANGPTL3/8 was associated with increased CHD risk. Hazard ratio per 1 SD increase was 1.10 (95% CI, 1.03-1.17) after adjustment for age, sex, cohort, smoking, and hypertension. Elevated concentrations of ANGPTL3/8, but not ANGPTL3, are associated with an atherogenic lipoprotein profile and increased CHD risk in humans. Show less

Ovarian cancer presents a significant treatment challenge due to its insidious nature and high malignancy. As autophagy is a vital cellular process for maintaining homeostasis, targeting the autophagic pathway has emerged as an avenue for cancer therapy. In the present study, we identify apolipoprotein B100 (ApoB100), a key modulator of lipid metabolism, as a potential prognostic biomarker of ovarian cancer. ApoB100 functioned as a tumor suppressor in ovarian cancer, and the knockdown of ApoB100 promoted ovarian cancer progression in vivo. Moreover, ApoB100 blocked autophagic flux, which was dependent on interfering with the lipid accumulation/endoplasmic reticulum (ER) stress axis. The effects of LFG-500, a novel synthetic flavonoid, on ApoB100 induction were confirmed using proteomics and lipidomics analyses. Herein, LFG-500 induced lipid accumulation and ER stress and subsequently blocked autophagy by upregulating ApoB100. Moreover, data from in vivo experiments further demonstrated that ApoB100, as well as the induction of the lipid/ER stress axis and subsequent blockade of autophagy, were responsible for the anti-tumor effects of LFG-500 on ovarian cancer. Hence, our findings support that ApoB100 is a feasible target of ovarian cancer associated with lipid-regulated autophagy and provide evidence for using LFG-500 for ovarian cancer treatment. Show less

Patients with cancer undergoing cisplatin chemotherapy frequently experience cardiotoxic side effects that significantly affect their prognosis and survival rates. Our study found that Panax ginseng root extract exerted a significant protective effect against cisplatin-induced myocardial cell injury. The present study aims to elucidate the underlying mechanisms by which the bioactive components of Panax ginseng mitigate cisplatin-induced cardiotoxicity (CIC). In vitro, the candidate active components were screened by network pharmacological prediction and in neonatal rat ventricular myocytes (NRVMs), and their mechanisms of action were verified by transcriptome sequencing, western blotting, gene overexpression, immunoprecipitation, immunofluorescence, and cellular thermal shift assays. A C57BL/6 CIC mouse model was established to verify the protective effects of the candidate components and the in vivo mechanism of the candidate components. Through network pharmacology prediction and cellular activity screening of ginseng root compounds, ginsenoside Rh2(S) (Rh2) was identified as a significant active component. Transcriptomic, in vitro, and in vivo experiments demonstrated that Rh2 can activate the Pak1/Limk1/cofilin phosphorylation pathway, thereby inactivating the actin-severing protein cofilin and protecting cardiomyocytes from cisplatin-induced actin depolymerization. Additionally, Rh2 suppressed the ROS/caspase-3/GSDME pathway to inhibit cisplatin-induced pyroptosis. Furthermore, co-immunoprecipitation and overexpression experiments confirmed that Rh2 activated the FGFR1/HRAS axis, thereby simultaneously regulating the two aforementioned pathways to combat CIC. This study demonstrated for the first time that Rh2 is the main active component in Panax ginseng that maintains cytoskeletal homeostasis and inhibits pyroptosis by regulating the FGFR1/HRAS pathway to resist CIC. This study aimed to provide a theoretical basis for expanding the targets and pathways of CIC treatment, and for the development of related drugs. Show less

Renal fibrosis is a common pathological process in various chronic kidney diseases. The accumulation of senescent renal tubular epithelial cells (TECs) in renal tissues plays an important role in the development of renal fibrosis. Eliminating senescent TECs has been proven to effectively reduce renal fibrosis. Procyanidin C1 (PCC1) plays a senolytic role by specifically eliminating senescent cells and extending its overall lifespan. However, whether PCC1 can alleviate unilateral ureteral obstruction (UUO)-induced renal fibrosis and the associated therapeutic mechanisms remains unclear. Here, we observed a marked increase in senescent TECs within obstructed human renal tissue and demonstrated the positive correlation between the accumulation of senescent TECs and renal fibrosis in UUO-induced renal fibrosis in mice. We found that PCC1 reduced the number of senescent TECs, restored the regenerative phenotype in kidneys with reduced fibrosis, and improved tubular repair after UUO-induced injury. In vitro, PCC1 effectively cleared senescent HK2 cells by inducing apoptosis via ANGPTL4/NOX4 signaling. Incubation with culture medium from senescent HK2 cells promoted fibroblast activation, whereas PCC1 impeded profibrotic effects by downregulating senescence-associated secretory phenotype (SASP) factors from senescent HK2 cells. Therefore, PCC1 alleviated interstitial renal fibrosis not only by clearing senescent TECs and improving tubular repair but also by indirectly attenuating myofibroblast activation by reducing the level of SASP. In summary, PCC1 may be a novel therapeutic senolytic agent for treating renal fibrosis. Show less

Approximately 10-20% of thyroid cancers are driven by gene fusions, which activate oncogenic signaling through aberrant overexpression, ligand-independent dimerization or loss of inhibitory motifs. We identified 13 thyroid tumors with thyroglobulin (TG) gene fusions and aimed to assess their histopathology and the fusions' oncogenic and tumorigenic properties. Of eleven cases with surgical pathology, 82% were carcinomas and 18% were noninvasive follicular thyroid neoplasms with papillary-like nuclear features (NIFTP). TG fusions preserved exon(s) 1, 1-15, 1-35 or most frequently, 1-47 of TG and, based on the 3' partner were grouped as i) involving receptor tyrosine kinases (RTKs) (TG::FGFR1, TG::RET, TG::ALK and TG::NTRK1), ii) driving aberrant DPRX and chromosome 19 microRNA cluster expression (TG::DPRX) or iii) involving IGF2 mRNA-binding protein (TG::IGF2BP1). All 13 fusion-positive tumors exhibited strong (8.5 ± 3.3 log2-fold) 3' partner overexpression driven by the TG promoter. Gene expression analysis revealed TG::RET- and TG::ALK-positive tumors being BRAFV600E-like and remaining tumors RAS-like. In thyroid PCCL3 cells, the TG::NTRK1 fusion demonstrated both spontaneous and ligand-associated dimerization, activated downstream MAPK, AKT and STAT3 signaling and drove xenograft tumorigenesis in nude mice. FDA-approved NTRK inhibitors entrectinib and larotrectinib effectively blocked TG::NTRK1 signaling in vitro and inhibited xenograft tumor growth in vivo. In summary, we report a spectrum of TG gene fusions as recurrent oncogenic events in thyroid cancer and NIFTP that drive strong overexpression of partner genes, frequently RTKs. The TG::NTRK1 fusion is prone to dimerization, activates oncogenic signaling, drives tumorigenesis in thyroid cells and, like other fusions involving RTKs, represents a potential therapeutic target in thyroid cancer. Show less

To evaluate whether integrating Apolipoprotein B (ApoB) into the Systematic Coronary Risk Evaluation 2 (SCORE2) cardiovascular risk prediction framework improves its predictive accuracy and clinical applicability within the UK Biobank population. A 10-year prospective cohort study was conducted with 448 303 UK Biobank participants eligible for SCORE2 calculation. Three approaches were employed: (i) threshold analysis to determine the optimal ApoB cutoff for cardiovascular disease (CVD) risk prediction using Youden's Index, (ii) assessment of the synergistic effect of SCORE2 and ApoB through concordant and discordant classifications, and (iii) recalibration of the SCORE2 model by incorporating ApoB as an additional predictor. Each 0.2 g/L increase in ApoB was associated with an increased subdistribution hazard for CVD events [subdistribution hazard ratio (SHR): 1.13; 95% CI: 1.11-1.14, P < 0.001], accounting for non-cardiovascular death as a competing risk. Threshold analysis identified an optimal ApoB cutoff at 1.18 g/L; however, it demonstrated limited discriminatory performance (area under the curve 0.54), with low sensitivity (32.4%), and moderate specificity (74.4%). Individuals with both low ApoB (<1.18 g/L) and low SCORE2 risk (<5%) had a lower CVD incidence rate (232.51 per 100 000 person-years) compared with those identified as low risk by SCORE2 alone (253.69 per 100 000 person-years). Integration of ApoB into the SCORE2 model did not significantly improve the model discrimination, calibration, and net reclassification improvement. Apolipoprotein B exhibited a dose-response relationship with cardiovascular risk but had limited standalone predictive utility within the UK Biobank population. However, combining ApoB with SCORE2 thresholds improved the identification of low-risk individuals, suggesting a complementary role for ApoB in refining cardiovascular risk stratification. Show less

Subareolar sclerosing ductal hyperplasia (SSDH) is a distinct type of complex sclerosing hyperplastic lesion first described by Rosen in 1987. There have been rare studies investigating SSDH; however, no genetic study has been performed to date. Seven SSDH cases, diagnosed between 2013 and 2024, were identified. All were subjected to next-generation sequencing (523 genes). Patient ages ranged from 40 to 74 years (median = 46). All lesions were located in the subareolar region. Each showed the characteristic appearance of the lesion, as described in the seminal study, with usual ductal hyperplasia in a densely sclerotic background imparting an 'infiltrative' appearance. None of the cases showed atypical hyperplasia or carcinoma. DNA sequencing identified PI3K pathway alterations in all seven cases: PIK3CA (n = three, one with two alterations), PIK3R1 (n = three) and PIK3C3 (n = one, with concurrent FAT1 mutation). SSDH shows PI3K pathway alterations similar to those seen in other non-atypical and atypical proliferative lesions as well as benign and malignant neoplasms of the breast. This finding may explain the rare association of SSDH with atypical hyperplasia, in-situ and invasive carcinoma. Show less

Epstein-Barr virus-induced 3 (EBI3) functions as a component of the heterodimer cytokine IL-27, which regulates innate and acquired immune responses. The expression of EBI3 gene is induced by Toll-like receptors (TLRs). Repeated treatment with imiquimod (IMQ), a TLR7 agonist, induces splenomegaly and cytopaenia due to increased splenic function. Although immune cell activation is speculated to play a role in chronic infection-mediated splenomegaly, the detailed mechanisms remain unknown. This study shows that IMQ treatment induces marked splenomegaly and severe bicytopaenia (anaemia and thrombocytopaenia) in wild-type mice. In IMQ-treated mice, myeloid cell populations in the spleen increased, and extramedullary haematopoiesis was observed. RNA-seq analysis revealed the upregulation of type I interferon (IFN)-related genes in the spleens of IMQ-treated mice. IMQ-induced pathological changes were partially mitigated by EBI3 deficiency. To investigate the mechanism of the improved phenotypes in the Ebi3 KO mice, we examined the involvement of IL-27, a heterodimer of EBI3 and IL-27p28. The expression of Il27a, which encodes IL-27p28, was increased in the spleen and peripheral blood by IMQ treatment. Furthermore, IL-27 stimulation upregulated type I IFN-related genes in bone marrow-derived macrophage cultures without type I IFN. These findings suggest that EBI3 deficiency mitigated IMQ-mediated pathological changes, presumably via a lack of IL-27 formation. Our study thus provides insights into the molecular mechanisms underlying chronic infection-mediated splenomegaly. Show less

A notion of the continuous production of amyloid-β (Aβ) via the proteolysis of Aβ-protein-precursor (AβPP) in Alzheimer's disease (AD)-affected neurons constitutes both a cornerstone and an article of faith in the Alzheimer's research field. The present Perspective challenges this assumption. It analyses the relevant empirical data and reaches an unexpected conclusion, namely that in AD-afflicted neurons, the production of AβPP-derived Aβ is either discontinued or severely suppressed, a concept that, if proven, would fundamentally change our understanding of the disease. This suppression, effectively self-suppression, occurs in the context of the global inhibition of the cellular cap-dependent protein synthesis as a consequence of the neuronal integrated stress response (ISR) elicited by AβPP-derived intraneuronal Aβ ( Show less

Hyperphagia is a condition associated with rare obesity-related diseases, presenting as a pathologic, insatiable hunger accompanied by abnormal food-seeking behaviors. In October 2023, a group of researchers and clinicians with expert knowledge on hyperphagia convened at the annual ObesityWeek meeting to discuss the need for a unified definition of hyperphagia and key items necessary to improve the identification, assessment, and treatment of hyperphagia in patients with melanocortin 4 receptor (MC4R) pathway-associated diseases. The definition of hyperphagia proposed by this group is a pathologic, insatiable hunger accompanied by abnormal food-seeking behaviors. Suggested methods to accurately identify patients with hyperphagia include increased physician and parent/caregiver education and standardized efficient screening procedures for use in the clinic. The etiology of hyperphagia as related to abnormal MC4R signaling was also reviewed and proposed as a central cause of the condition across several underlying diseases. Given this potential unified underlying pathology, the expert group recommends that patients with hyperphagia undergo genetic testing and that treatment include comprehensive weight-management strategies incorporating lifestyle and pharmacotherapies targeted at addressing hyperphagia. Show less

Angiogenesis, a meticulously regulated process essential for both normal development and pathological conditions, necessitates a comprehensive understanding of the endothelial mechanisms governing its progression. Leveraging the zebrafish model and NgAgo knockdown system to identify target genes influencing angiogenesis, our study highlights the significant role of gastric inhibitory polypeptide (GIP) and its receptor (GIPR) in this process. While GIP has been extensively studied for its insulinotropic and glucagonotropic effects, its role in angiogenesis remains unexplored. This study demonstrated that GIPR knockdown induced developmental delays, morphological abnormalities, and pronounced angiogenic impairments in zebrafish embryos. Conversely, exogenous D-Ala2-GIP administration enhanced blood vessel formation in the yolk sac membrane of chick embryos. Consistent with these findings, D-Ala2-GIP treatment promoted microvessel formation in the tube formation assays and rat aortic ring models. Further investigation revealed that D-Ala2-GIP facilitated human umbilical vein endothelial cell (HUVEC) migration, a key step in angiogenesis, through the cyclic adenosine monophosphate (cAMP)-mediated activation of the Epac/Rap1/Cdc42 signaling pathway. This study provides novel insights into the angiogenic functions of GIP and its potential implications for cardiovascular biology. Show less

Females with hypertrophic cardiomyopathy present at a more advanced stage of the disease and have a higher risk of heart failure and death. The factors behind these differences are unclear. We aimed to investigate sex-related differences in clinical and genetic factors affecting adverse outcomes in the Sarcomeric Human Cardiomyopathy Registry. Cox proportional hazard models were fit with a sex interaction term to determine if significant sex differences existed in the association between risk factors and outcomes. Models were fit separately for females and males to find the sex-specific hazard ratio (HR). After a mean follow-up of 6.4 years, females had a higher risk of heart failure (HR, 1.51 [95% CI, 1.21-1.88]; We found that clinical and genetic factors contributing to adverse outcomes in hypertrophic cardiomyopathy affect females and males differently. Thus, research to inform sex-specific management of hypertrophic cardiomyopathy could improve outcomes for both sexes. Show less

The precise involvement of Guanine Nucleotide-Binding Protein-Like 3-Like Protein (GNL3L) in lung cancer progression and invasion remains unclear. In this study, we explored the impact and underlying mechanisms of GNL3L on the proliferation, migration, and invasion of lung adenocarcinoma (LUAD), and evaluated the therapeutic potential of targeting GNL3L. Inhibition of GNL3L expression led to a notable decrease in the in vitro proliferation, migration, and invasion of A549 and H1299 non-small cell lung cancer (NSCLC) cells. Meanwhile, GNL3L silencing could significantly reduce the tumor volume of the nude mice and improve the outcomes of tumor-bearing mice in vivo. Additionally, inhibition of GNL3L expression dramatically suppressed NF-κB activation and Slug, MMP2, and MMP9 expression. Overexpression of Slug or treatment of the GNL3L-deficient cells with NF-κB activator can partially restore the growth suppressed by GNL3L deficiency, and combined treatment with Slug overexpression and NF-κB activator could totally restore the suppressed cell growth caused by GNL3L deficiency. Moreover, the overexpression of MMP2 or MMP9 could partially enhance the reduced migration and invasion caused by GNL3L deficiency, and this GNL3L-deficiency-caused suppression of migration and invasion can be totally restored by the overexpression of MMP2 and MMP9 together. These results strongly indicated that GNL3L has the capability to activate the NF-κB and increase Slug, MMP2, and MMP9 expression, which in turn could stimulate the proliferation, migration, and invasion of lung cancer cells. NF-κB activation and Slug, MMP2, and MMP9 expression enhanced by GNL3L, leading to the promotion of proliferation, migration, and invasion of lung cancer cells, indicating the therapeutic implications and potential significance of these pathways in the progression and invasion of NSCLCs that overexpress GNL3L protein. Show less

The multi-target directed ligands (MTDLs) strategy has been evolved as the propitious approach for the development of therapeutics for Alzheimer's disease (AD). In an earlier report, we described the novel series of chalcone derivatives bearing N-aryl piperazine scaffold as MTDLs for the treatment of AD. Herein, we report the lead optimization of the series culminating in potent, multi-targeting compounds (32-57), evaluated through in-vitro and in-vivo biological studies. The optimal compound 48 exhibited potent inhibitory activities against AChE (IC Show less

Nucleoporins (Nups) are a class of proteins that assemble to form nuclear pore complexes, which are related to nucleocytoplasmic transport, gene expression, and the cell cycle. Pathogenic variants in six genes encoding Nups, NUP85, NUP93, NUP107, NUP133, NUP160, and NUP205, cause monogenic steroid-resistant nephrotic syndrome (SRNS), referred to as nucleoporin-associated SRNS. In this paper, we review the epidemiology, structure and function of Nups, pathogenesis, phenotypes and genotypes, and management of nucleoporin-associated SRNS as well as implications for genetic counseling. Affected individuals exhibit autosomal recessive isolated and syndromic SRNS, whose extrarenal manifestations include neurological disorders, growth and development disorders, cardiovascular disorders, and congenital malformations. The median ages at onset of NUP85-, NUP93-, NUP107-, NUP133-, NUP160-, and NUP205-associated SRNS are 7, 3, 4.1, 9, 7, and 2 years, respectively. Kidney biopsies reveal focal segmental glomerulosclerosis in 89% of patients. Most affected individuals are resistant to immunosuppressants. For the six subtypes of nucleoporin-associated SRNS, patients show progression to kidney failure at median ages of 8.5, 3.7, 6.9, 13, 15, and 7 years, respectively. Only two patients with NUP93-associated SRNS with nephrotic syndrome relapse post-transplant have been reported, and the recurrence rate is 12.5%. Next-generation sequencing using a targeted gene panel is recommended in cases of suspected nucleoporin-associated SRNS for genetic diagnosis. Renin-angiotensin-aldosterone system inhibitors are recommended for patients with nucleoporin-associated SRNS. Once genetic diagnosis is confirmed, immunosuppressant discontinuation should be considered, and kidney transplant is preferred when patients progress to kidney failure. Genetic counselling should be provided for asymptomatic siblings and future siblings of an affected individual. Further studies on the pathogenesis of nucleoporin-associated SRNS are needed to seek new therapeutic interventions. Show less

Congenital nephrotic syndrome of the Finnish type (CNF) is an autosomal recessive disorder resulting from mutations in the We describe the salient features of a newborn with CNF and multiple fetal anomalies based on clinical risk factors discovered by ultrasound (US) and X-rays, which include cardiomegaly, polycystic kidney disease, and renal dysplasia. Biochemical tests showed substantial proteinuria and excess protein in the urine detected at birth; this condition caused albuminuria, hypoalbuminemia, edema, and additional symptoms. The patient underwent treatment to reduce the risks of proteinuria, hypertension, infection, and other symptoms. The next generation sequencing (NGS) analysis revealed that the infant had five previously unreported heterozygous missense variants classified as VUS in The infant's illness may be related to changes in exonic splicing caused by Show less

To examine the adaptive behaviour profiles of children with monogenic neurodevelopmental disorders (NDDs) to determine whether syndrome-specific or transdiagnostic approaches provide a better understanding of the adaptive behavioural phenotypes of these NDDs. This cross-sectional study included parents and caregivers of 243 (48% female) individuals (age range = 1-25 years; mean = 8 years 10 months, SD = 5 years 8 months) with genetically confirmed monogenic NDDs (CDK13, DYRK1A, FOXP2, KAT6A, KANSL1, SETBP1, BRPF1, and DDX3X). Parents and caregivers completed the Vineland Adaptive Behavior Scales, Third Edition to assess communication, daily living, socialization, and motor skills. Linear regression models comparing mean adaptive behaviours between monogenic NDDs, adjusting for the presence of intellectual disability, revealed few group differences. Children with variants in BRPF1 or KANSL1 had better adaptive behaviour skills compared to children with variants in CDK13, DDX3X, DYRK1A, and KAT6A, although group differences varied across domains. A latent profile analysis showed compelling evidence for a five-profile model. These profiles were homogeneous, with similar delays across the subdomain scores in each profile. Additionally, each monogenic NDD was represented in each profile, with a few exceptions. Transdiagnostic approaches to understand adaptive behaviour in monogenic NDDs provide a better understanding of individual strengths and challenges, enabling more targeted support. Show less

Patients with obstructive sleep apnea (OSA) experience chronic intermittent hypoxia (CIH). OSA patients and CIH-treated rodents exhibit overactive sympathetic nervous system and hypertension, mediated through hyperactive carotid body (CB) chemoreflex. Activation of olfactory receptor 78 (Olfr78) by hydrogen sulfide (H2S) is implicated in CB activation and sympathetic nerve responses to CIH, but the downstream signaling pathways remain unknown. Given that odorant receptor signaling is coupled to adenylyl cyclase 3 (Adcy3), we hypothesized that Adcy3-dependent cyclic adenosine monophosphate (cAMP) contributes to CB and sympathetic responses to CIH. Our findings show that CIH increases cAMP levels in the CB, a response absent in Adcy3, Cth (encoding CSE), and Olfr78 null mice. CBs from Cth and Olfr78 mutant mice lacked a persulfidation response to CIH, indicating that Adcy3 activation requires Olfr78 activation by H2S in CIH. CIH also enhanced glomus cell Ca2+ influx, an effect absent in Cnga2 (encoding cyclic nucleotide-gated channel alpha2 subunit) and Adcy3 mutants, suggesting that CIH-induced cAMP mediates enhanced Ca2+ responses through cyclic nucleotide-gated channels. Furthermore, Adcy3 null mice did not exhibit either CB activation or sympathetic activation by CIH. These results demonstrate that Adcy3-dependent cAMP is a downstream signaling pathway to H2S/Olfr78, mediating CIH-induced CB activation, sympathetic activity and hypertension. Show less

Exposure to environmental pollutants with obesogenic activity is being recognised as one of the contributing factors to the obesity epidemic. Bisphenol A (BPA) has been shown to stimulate adipogenesis in both human and mouse preadipocytes, to increase body weight and affect lipid metabolism in animal and epidemiological studies. Regulatory action and public concern has prompted industry to replace BPA with other structurally similar analogues that may have similar effects. In this study we investigated the effects of fifteen BPA analogues on adipogenesis in the mouse 3 T3-L1 pre-adipocyte cell model in order to determine their adipogenic activity relative to BPA. 3 T3-L1 cells were treated with increasing concentrations of BPA and replacements and mRNA expression of the mature adipocyte markers fatty acid binding protein 4 (Fabp4), perilipin (Plin) lipoprotein lipase (Lpl)and peroxisome proliferator-activated receptor (Ppar)γ and lipid accumulation were assessed. In addition, a luciferase reporter assay for PPARγ transactivation was employed to investigate mechanism of action. Our results show that BPC, BPS-MAE, BPS-MPE and TGSA, were the most adipogenic bisphenols, as shown by a robust increase in lipid accumulation and mRNA expression of adipogenic markers. BPS-MPE, BPC, BTUM, TGSA and D8 increased PPARγ transcriptional activity. Despite its ability to activate PPARγ in the transcriptional assay D8 did not affect adipogenesis in this cell model. Show less

Colorectal cancer (CRC) is a fatal cancer prevalent worldwide, and epithelial-mesenchymal transition (EMT) is a key factor in tumor invasion and metastasis. Piperine, a natural alkaloid known for its antitumor properties, faces limitations in clinical use due to its moderate potency. To address this, our team synthesized and validated a new derivative, HJJ₃₅, which has shown potent antitumor activity against CRC cells. We assessed HJJ₃₅'s inhibitory effects on the colon cancer cell line HCT116 through MTT, colony formation, and assays for cell migration and invasion. To uncover HJJ₃₅'s molecular mechanisms, we utilized transcriptomics, weighted gene co-expression network analysis (WGCNA), and machine learning to identify key EMT-related genes. Western blot and immunofluorescence experiments confirmed the expression changes of these key proteins. Our findings indicate that HJJ₃₅ significantly suppressed the proliferation, migration, and invasion of HCT116 cells in vitro, outperforming piperine. We discovered that HJJ₃₅ downregulated the expression of COL12A1, PJA2, VCAN, MEF2C, DPYD, and DDR2 genes in HCT116 cells, which resulted in a decrease in the EMT regulator SNAI1, thus inhibiting EMT in these cells. In summary, this study presents novel evidence that the piperine derivative HJJ₃₅ inhibits the migration and invasion of colorectal cancer cells through SNAI1-mediated EMT. Show less

Human neonates are predisposed to an increased risk of mortality from infection due to fundamental differences in the framework of innate and adaptive immune responses relative to those in the adult population. As one key difference in neonates, an increase in the immunosuppressive cytokine, IL-27, is responsible for poor outcomes in a murine neonatal model of bacterial sepsis. In our model, the absence of IL-27 signaling during infection is associated with improved maintenance of body mass, increased bacterial clearance with reduced systemic inflammation, and decreased mortality rates that correlate to preservation of glucose homeostasis and insulin production. To further elucidate the mechanisms associated with IL-27 signaling and metabolic fitness, we analyzed global transcriptomes from spleen, liver, pancreas, and hindlimb muscle during Show less

Medications targeting the leptin and Apolipoprotein CIII (APOC3) pathways are currently under development for the treatment of hypertriglyceridaemia. Given that both pathways are implicated in triglyceride regulation, it is unknown whether they function independently or interact under physiological conditions and under acute or long-term energy deficiency. APOC3 levels and their association with circulating lipids and lipoproteins were evaluated in the context of two randomised controlled studies. In Study-1, 15 healthy individuals were examined under three distinct conditions, each lasting 72 h: isocaloric feeding, fasting with placebo administration and fasting with leptin administered at replacement doses. In Study-2, 20 females with hypoleptinemia due to relative energy deficiency in sport (REDs) for a minimum of 6 months were treated with either leptin or a placebo for 36 weeks. In Study-1, APOC3 levels remained stable across all arms and were unaffected by leptin administration. In the fed state, APOC3 levels presented positive correlations with various VLDL, IDL, LDL and HDL sizes, and free fatty acids (FFA), most of which were not replicated in fasting. During complete energy deprivation, APOC3 was correlated with HDL molecules, glutamine and FFA, whereas its levels were positively associated only with FFA under leptin treatment. In Study-2, APOC3 levels were lower in the leptin group, but this was not a leptin-dependent effect. A positive correlation between APOC3 levels and HDL was observed in the leptin group. These results contribute towards our better understanding of the intricate nature of lipid regulation under energy deficiency, suggesting that medications targeting the leptin and APOC3 pathways act through different metabolic pathways and thus may have independent effects from each other in regulating triglycerides. Show less

Recently, the knowledge of the genetic basis of fertility disorders has expanded enormously, mainly thanks to the use of next-generation sequencing (NGS). However, the genetic cause of infertility, in the majority of patients, is still undefined. The aim was to identify novel and recurrent pathogenic/likely pathogenic variants in patients with isolated infertility or puberty delay using a targeted NGS technique. We have enrolled 41 patients (36 males and 5 females) with infertility problems or delayed puberty. We included the patients with hypogonadotropic hypogonadism (n = 12), hypergonadotropic hypogonadism (n = 15), abnormal sperm parameters (n = 10), androgen insensitivity syndrome (n = 3) and 46,XY gonadal dysgenesis (n = 1). Genetic tests were performed using targeted NGS panel of 35 genes implicated in fertility. Pathogenic or likely pathogenic variants potentially explaining the clinical phenotype were identified in 12 of 41 patients (29%). These included 9 of 12 patients (75%) with hypogonadotropic hypogonadism, 2 of 3 patients (66%) with androgen insensitivity syndrome, and the single patient with 46,XY gonadal dysgenesis. Among the 18 identified variants, 4 were novel (FGF8:p.Ala147Thr; SEMA3A:p.Arg544Cys; FGFR1:p.Thr141IlefsTer10; NSMF: p.Tyr242Cys), while 14 were recurrent. Our study expands the knowledge of the genetic basis of the infertility disorders and highlights the importance of genetic testing for proper diagnosis making and genetic counselling. Show less

Non-alcoholic fatty liver disease (NAFLD) is the most common chronic liver disease without an approved pharmacological approach for its prevention/treatment. Based on the modified Delphi process, NAFLD was redefined as metabolic dysfunction-associated steatotic liver disease (MASLD) to highlight the metabolic aspect of liver pathogenesis. Chios mastiha ( Show less

Interferon-induced transmembrane protein 3 (IFITM3) modulates γ-secretase in Alzheimer's Disease (AD). Although IFITM3 knockout reduces amyloid β protein (Aβ) production, its cell-specific effect on AD remains unclear. Single nucleus RNA sequencing (snRNA-seq) was used to assess IFITM3 expression. Adeno-associated virus-BI30 (AAV-BI30) was injected to reduce IFITM3 expression in the cerebrovascular endothelial cells (CVECs). The effects on AD phenotypes in cells and AD mice were examined through behavioral tests, two-photon imaging, flow cytometry, Western blot, immunohistochemistry, and quantitative polymerase chain reaction assay (qPCR). IFITM3 expression was increased in the CVECs of patients with AD. Overexpression of IFITM3 in primary endothelial cells enhanced Aβ generation through regulating beta-site APP cleaving enzyme 1 (BACE1) and γ-secretase. Aβ further increased IFITM3 expression, creating a vicious cycle. Knockdown of IFITM3 in CVECs decreased Aβ accumulation within cerebrovascular walls, reduced Alzheimer's-related pathology, and improved cognitive performance in AD transgenic mice. Knockdown of IFITM3 in CVECs alleviates AD pathology and cognitive impairment. Targeting cerebrovascular endothelial IFITM3 holds promise for AD treatment. Interferon-induced transmembrane protein 3 (IFITM3) expression was increased in the cerebrovascular endothelial cells (CVECs) of patients with Alzheimer's Disease (AD). Cerebrovascular endothelial IFITM3 regulates amyloid β protein (Aβ) generation through regulating beta-site APP cleaving enzyme 1 (BACE1) and γ-secretase. Knockdown of IFITM3 in CVECs reduces Aβ deposits and improves cognitive impairments in AD transgenic mice. Cerebrovascular endothelial IFITM3 could be a potential target for the treatment of AD. Show less

Familial hyperlipidemia (familial hypercholesterolemia, FH) is an autosomal genetic disorder. It includes type heterozygous familial hyperlipidemia (heterozygous familial hypercholesterolemia). HeFH is mainly caused by mutations in the LDLR, APOB, and PCSK9 genes and is characterized by elevated plasma low-density lipoprotein cholesterol levels. We present a case of HeFH attributed to an APOB gene mutation. The whole-genome DNA of peripheral blood was extracted from the blood of the proband and their parents, and the exons of peripheral blood were sequenced through high-throughput sequencing. The selected mutation sites were verified by sequencing using the Sanger method. A heterozygous mutation, c.6551A>G (p.Y2184C), in exon 26 of the APOB gene (Chr2-21233189) was identified in both the proband and the mother. Combined with the clinical features, HeFH caused by this mutation was initially considered. For patients with a high degree of clinical suspicion of FH, a definitive diagnosis should be established through genetic testing, enabling patients to receive early treatment and effectively prevent the occurrence of cardiovascular events. Show less

Cadmium (Cd) is a widely available metal that has been found to have a role in causing nonalcoholic fatty liver disease (NAFLD). However, the detailed toxicological targets and mechanisms by which Cd causes NAFLD are unknown. Therefore, the present work aims to reveal the main targets of action, cellular processes, and molecular pathways by which cadmium causes NAFLD. As shown in the bioinformatics analysis, there were 74 main targets of action for cadmium-induced NAFLD, hemopoietic cell kinase (HCK), EPH receptor A2 (EPHA2), MYC proto-oncogene (MYC), lysyl oxidase (LOX), dipeptidyl peptidase 7 (DPP7), nuclear factor erythroid 2-related factor 2 (NFE2L2), dual specificity phosphatase 6 (DUSP6), CD2 cytoplasmic tail binding protein 2 (CD2BP2), notch receptor 3 (NOTCH3), and phospholipase A2 group IVA (PLA2G4A) were screened as core genes. Testing these core genes in other databases, three differentially expressed genes, HCK, MYC, and DUSP6 were verified and used as targets for drug prediction in DsigDB; decitabine and retinoic acid were screened as potential therapeutic drugs for NAFLD based on the p-value and the combined score. The results of molecular docking showed that the predicted drugs can bind well to the core targets. In conclusion, cadmium is associated with NAFLD; the identified cadmium-toxicity targets, HCK, MYC, and DUSP6, may serve as biomarkers for the diagnosis of NAFLD and predicted drugs, decitabine and retinoic acid may have a potential role in the treatment of NAFLD. Show less