Search Results (3,697)

Graft-versus-host disease (GVHD) is one of the principal complications seen in the recipients of allogenic hematopoietic stem cell transplantation (allo-HSCT), and persists as a leading cause of post-transplant morbidity and mortality. Increasing evidence highlights the crucial influence of the gut microbiome (GM) on transplant outcomes. Microbial dysbiosis, characterized by reduced bacterial diversity and pathogenic overgrowth, is strongly associated with higher rates of complications and mortality. Patients with lower microbial diversity exhibit poorer overall survival (OS) and an increased incidence of acute GVHD (aGVHD). Conversely, restoration of beneficial commensal communities has been shown to enhance immune homeostasis, mitigate GVHD severity, and decrease infection risk. Emerging therapeutic strategies now focus on modulating the intestinal microbiome through dietary interventions, probiotics, prebiotics, and fecal microbiota transplantation (FMT). It has been demonstrated that bacterial metabolites, such as short-chain fatty acids (SCFAs) from the diet, especially a diet rich in fibers, reduce the occurrence/severity of GVHD by inducing regulatory T cells (Tregs), which release anti-inflammatory cytokines and regulate the host immune system. Hence, the implementation of dietary fibers (DFs) could increase beneficial commensals, Treg induction, and improve outcomes such as GVHD and OS in recipients of allo-HCT. Hereupon, this review addresses how a fiber-rich diet modulates GM composition, reinforces epithelial barrier integrity, and improves the efficacy of Treg-based immunotherapy by stabilizing their regulatory phenotype and increasing their functional persistence, ultimately leading to a reduction in GI complications associated with GVHD. Unlike prior reviews that primarily cover the microbiome–GVHD axis or Treg therapies in isolation, this review emphasizes fermentable dietary fibers as a mechanistically grounded, clinically actionable strategy to support Treg stability and persistence via microbiota-derived metabolites. We integrate mechanistic evidence with emerging clinical feasibility data and ongoing trials of prebiotic supplementation in allogeneic HSCT. Full article

Background and Objectives: Autologous stem cell transplantation (ASCT) remains the standard of care for relapsed or refractory Hodgkin lymphoma (R/R HL), and an increasing proportion of patients receive programmed cell death protein 1 (PD-1) inhibitors prior to transplantation. Engraftment syndrome (ES) is a noninfectious inflammatory complication classically associated with neutrophil recovery; however, early peri-transplant inflammatory manifestations remain poorly characterized and may mimic infectious complications. We aimed to evaluate peri-transplant inflammatory events after ASCT, with particular emphasis on ES-compatible manifestations occurring before neutrophil engraftment and their association with prior PD-1 inhibitor exposure. Materials and Methods: In this single-center retrospective cohort study, 64 consecutive adult patients with HL undergoing ASCT between 2018 and 2025 were analyzed. ES was defined according to Spitzer and Maiolino criteria. Inflammatory manifestations fulfilling these criteria but occurring prior to neutrophil recovery were classified as pre-engraftment syndrome (pre-ES). Clinically significant events were defined by the requirement for systemic corticosteroid therapy. Clinical and laboratory parameters were compared using non-parametric statistical analyses. Results: No cases fulfilled the Spitzer criteria for classical ES, while three patients (4.7%) met the Maiolino criteria, none requiring corticosteroid therapy. Using the broader Maiolino definition, pre-ES was observed in 34 patients (53.1%) when the conventional engraftment time window was disregarded; however, only three patients required systemic corticosteroid therapy. Importantly, all three cases also fulfilled the Spitzer criteria outside the conventional time window, whereas the remaining Maiolino-defined pre-ES cases were self-limiting. All steroid-requiring pre-ES cases occurred exclusively in PD-1-exposed patients, and prior PD-1 therapy was significantly associated with severe pre-ES (p = 0.0007), although this finding is based on a very small number of events. These patients also demonstrated significantly higher early C-reactive protein (CRP) levels. Conclusions: While classical ES after ASCT was uncommon, clinically significant pre-ES occurred exclusively in PD-1-exposed patients. These early inflammatory events may represent a distinct phenotype and require prompt recognition and timely corticosteroid therapy after exclusion of infection. Prospective studies are warranted to validate these findings and refine risk stratification and monitoring strategies. Full article

Advances in pediatric oncology have markedly improved survival, shifting attention toward long-term treatment-related morbidity. Targeted agents and immune-based therapies are now widely used across pediatric malignancies and selected non-malignant conditions, often for prolonged periods and during critical windows of growth and development. Because many therapeutic targets regulate physiological pathways involved in growth, pubertal maturation, gonadal function, bone metabolism, and energy homeostasis, clinically relevant endocrine toxicity may emerge during treatment or become apparent only with extended follow-up. This narrative review summarizes pediatric evidence on endocrine and metabolic effects associated with major classes of targeted and immune-based therapies, including tyrosine kinase inhibitors, mTOR inhibitors, MAPK-pathway inhibitors (BRAF/MEK), TRK inhibitors, ALK inhibitors, immune checkpoint inhibitors, and immune effector therapies. Distinct patterns of endocrine vulnerability emerge across drug classes: growth impairment and bone–mineral alterations are most consistently reported with tyrosine kinase inhibitors; weight gain and metabolic changes predominate with MAPK-, TRK-, and ALK-targeted agents; immune checkpoint inhibitors are characterized by early, multi-axis immune-related endocrinopathies with a high likelihood of permanent hormone deficiency once established. In contrast, endocrine abnormalities observed after immune effector therapies largely reflect indirect effects of systemic inflammation, corticosteroid exposure, and prior hematopoietic stem cell transplantation rather than direct endocrine toxicity. Given the limited pediatric-specific data, frequent confounding by multimodal therapy, and the potential for delayed or irreversible endocrine sequelae, structured endocrine monitoring and long-term survivorship care are essential for children exposed to modern anticancer therapies. Full article

Diabetic retinopathy (DR) is a major cause of adult blindness and is characterized by progressive retinal vascular dysfunction and pathological angiogenesis. To establish a DR model, streptozotocin (STZ) was intraperitoneally injected into rats. After 8 weeks, naïve placenta-derived mesenchymal stem cells (PD-MSCs) or PEDF-overexpressing PD-MSCs (PD-MSCs^PEDF) were intravitreally transplanted into the right eye for 4 weeks. Pathological neovascularization in DR is regulated by the balance between vascular endothelial growth factor (VEGF) and pigment epithelium-derived factor (PEDF). In diabetic retinas, increased VEGF and decreased PEDF expression were reversed following PD-MSC transplantation. Notably, PD-MSCs^PEDF treatment resulted in higher PEDF, and lower VEGF expression compared with naïve PD-MSCs, with similar expression patterns observed in the contralateral non-transplanted eyes. These findings indicate that engineering PD-MSCs^PEDF enhances anti-angiogenic activity by modulating VEGF and PEDF balance, thereby alleviating vascular damage in STZ-induced diabetic retinas. Full article

Hair serves essential functions, including mechanical sensing, head protection, and body temperature regulation, while also playing a significant role in human aesthetics. However, factors such as hormonal imbalances, autoimmune disorders, infections, and psychological stress contribute to the widespread issue of hair loss, particularly among the elderly, adversely affecting self-confidence and self-esteem. Although treatments such as minoxidil, finasteride, and dutasteride have received regulatory approval, their associated side effects, such as sexual dysfunction, neuropsychiatric issues, and cardiovascular symptoms, can impede patient recovery. While follicular unit transplantation and stem cell therapy show promising outcomes, they are not suitable for all types of hair disorders. Short peptides that mimic intracellular signals and exhibit diverse biological effects have emerged as a promising approach for stimulating hair regrowth. By combining different formulations and nanosystems, the limitations of short peptides can be effectively addressed. This review systematically summarizes recent advances in peptide-based treatments for hair loss, highlighting their advantages and limitations. Full article

Allogeneic hematopoietic cell transplantation (HCT) has been used for decades to treat certain malignant and non-malignant hematological conditions, but challenges remain. Increased understanding of disease mechanisms and recent developments in genome editing have enabled alternative strategies utilizing gene-edited autologous HCT and many of these have progressed to the clinic. We present here a comprehensive review of clinical trials of gene-edited autologous hematopoietic stem cells for the treatment of hemoglobinopathies and immunodeficiencies. Searches of major international clinical trial registries were carried out using specific key words. In total, 44 interventional clinical trials investigating gene-edited autologous stem cell therapies were identified, with CASGEVY (exagamglogene autotemcel) being the only product approved to date. Hemoglobinopathies were the most common indication (n = 37) followed by immunodeficiencies (n = 4), with single trials in HIV-1 infection, pyruvate kinase deficiency and limb–girdle muscular dystrophy. Gene-editing strategies fall into three categories: disruption of the BCL11A erythroid enhancer, editing of the γ-globin promoter and direct correction or disruption of disease-relevant genes. CD34⁺ hematopoietic stem and progenitor cells are the most common cell types edited, and CRISPR-Cas9 is the most widely used gene-editing modality. While results are encouraging, efficient intracellular delivery of gene-editing tools, editing efficiencies and off-target editing remain challenges for the field. Full article

Objectives: Allogeneic stem cell transplantation (HSCT) is curative in acute myeloid leukemia (AML) but is limited by relapse and non-relapse mortality (NRM). Metabolomic prognostic value is unclear. We assessed whether plasma metabolite profiles at diagnosis, pre-transplant, and post-transplant are associated with overall survival (OS) and cause-specific mortality. Methods: We retrospectively analyzed plasma metabolites from 63 AML patients undergoing HSCT (263 samples). Results: Higher levels of valine (hazard ratio [HR] 24.454), citrulline (HR 20.478), 5-oxoproline (HR 11.766), and glutamine (HR 8.701) associated with higher NRM, while inosine diphosphate (HR 0.091) and pyridoxamine-5′-phosphate (HR 0.313) associated with lower NRM. For relapse-related mortality (RRM), higher levels of phenylalanine (HR 26.585), leucine/isoleucine (HR 10.755), indolepyruvate (HR 7.676), and creatinine (HR 13.874) were associated with higher RRM, while trans-4-hydroxy-L-proline (HR 0.101) was associated with lower RRM. Higher post-transplant ornithine (HR 0.063), 3-sulfocatechol (HR 0.590), and indole-3-acetate (HR 0.359) were associated with improved OS. Mixed-effects modelling identified lower dehydroascorbate and citrate in relapsed patients, with dehydroascorbate remaining significant after false discovery rate adjustment. Conclusions: Metabolomic profiling nominated candidate metabolites for validation in larger prospective studies and elucidated mechanistic pathways, potentially informing novel interventions or risk-adapted monitoring strategies in HSCT. Full article

Acute lymphoblastic leukemia (ALL) is the most common childhood malignancy, with most cases arising from B-cell precursors expressing the CD19 marker. CD19 negativity in B-lineage ALL (B-ALL) is very rare de novo and poses diagnostic and therapeutic challenges. Sometimes, de novo CD19-negative B-ALL is associated with hypercalcemia, which is a potentially life-threatening metabolic disorder in children, rarely occurring in cancers. Most often it is reported in solid tumors, and few cases are reported in pediatric acute leukemia. CD19-negative B-ALL relapse is also an increasing dramatic event, secondary to immunotherapy. We describe a ten-month-old infant presenting with hypercalcemia, anemia, and osteolytic bone lesions. Bone marrow analysis revealed CD10-positive and CD19-negative B-ALL. The patient achieved complete remission but later experienced two relapses and died of respiratory failure after a second allogeneic hematopoietic stem cell transplantation (HSCT). Only nine cases of de novo CD19-negative B-ALL have been reported so far. Many are associated with hypercalcemia and osteolytic lesions. However, here we highlight the clinical impact of the more common secondary form of CD19-negative B-ALL as a relapse of CD19-positive ALL, right after the administration of targeted immunotherapy. Full article

Introduction: Extensive thermal injury remains a formidable clinical challenge, primarily due to the profound deficit of autologous donor skin, which necessitates prolonged hospitalization and escalates healthcare expenditures. While human embryonic stem cells (hESCs) offer a theoretically inexhaustible source for regenerative therapy, optimizing their differentiation and engraftment remains critical for clinical translation. Methods: We used a three-stage protocol to induce the differentiation of hESCs into keratinocytes (KCs). To optimize the delivery of hESC-derived keratinocytes (EKCs), human dermal fibroblasts (HFBs) were utilized to provide essential extracellular matrix (ECM) and microenvironmental support. The two cell types could self-assemble into 3D spheroids. After optimizing the size and cell proportion, these spheroids were subsequently transplanted onto full-thickness dorsal wounds in immunodeficient mice to evaluate their regenerative capacity. Results: hESC-derived keratinocytes exhibited the expression of stage-specific epidermal markers, confirming high differentiation efficiency. In vitro, EKCs demonstrate the capacity to form stratified epidermal structures. By self-assembling into spheres with dermal fibroblasts, the EKCs demonstrated successful engraftment and sustained survival in vivo. The transplantation of these 3D spheroids significantly accelerated wound closure and re-epithelialization compared with controls. Conclusions: This study establishes a robust cell therapy approach characterized by a short preparation cycle with high differentiation efficiency and high transplantation survival rate, offering a novel strategy for the treatment of extensive skin defects. Full article

Mesenchymal stem cells (MSCs) show therapeutic effects for acute liver failure (ALF), as demonstrated in small animal models of ALF, which showed improved survival and liver function. Nevertheless, small animal models are limited by their simplified immune systems and lower pathophysiological complexity, which prevent them from fully capturing the key features of human ALF. Large animal models offer better physiological similarity; however, the effectiveness of MSC therapy on large animal models of ALF, such as pigs and monkeys, remains unclear. In this study, we performed a meta-analysis to comprehensively evaluate the therapeutic effect and safety of MSC therapy in large animal models of ALF. A comprehensive search was conducted across PubMed/Medline, Web of Science, Embase, and the Cochrane Library for studies published prior to 3 March 2025. Of the 609 identified studies, 13 were included, with the majority showing a low or unclear risk of bias. The results of the meta-analysis indicated that MSC therapy was associated with a higher survival rate and lower levels of alanine aminotransferase (ALT) and aspartate aminotransferase (AST) in large animal models with ALF, compared with the control groups. Subgroup analyses showed efficacy in both pig and monkey models. Furthermore, they showed that bone marrow-derived mesenchymal stem cells and the deep vein transplantation route were each linked to a significantly higher survival rate and to lower ALT and AST levels after treatment in pigs with ALF. Additionally, a dose of (3.0–3.3) × 10⁶/kg was associated with a significantly higher survival rate, as well as a lower AST level after treatment. In summary, the findings suggest MSC therapy is a safe and potential therapeutic option for large animals with ALF, although randomized controlled trials (RCTs) are needed for further validation. Full article

Background/Objectives: Children and adolescents undergoing Haematopoietic Stem Cell Transplantation (HSCT) experience complex symptoms, often under-reported by patients and undetected by clinicians, which cause distress. Patient-Reported Outcome Measures (PROMs) offer a way to capture symptom experiences directly from patients, with the potential of supporting effective symptom assessment and management, yet their routine use in paediatric HSCT remains unclear. This systematic review synthesises evidence on PROMs used during inpatient paediatric HSCT care, examining their role in symptom monitoring and clinical decision-making, and identifying gaps to strengthen person-centred, developmentally appropriate care. Methods: We searched the MEDLINE, CINAHL, Embase, APA PsychINFO, and Cochrane Library in October 2024 for studies published in English between 2014 and 2025 describing the use of PROMs during inpatient paediatric (0–18 years) HSCT admission (up to Day +100 post HSCT). In March 2025, prior to data extraction, we added additional studies published by authors of included studies. Two-stage independent screening and data extraction were conducted, and the Quality Assessment with Diverse Studies (QuADS) tool was used to appraise each study. Narrative syntheses informed by Symptom Management Theory were used to compare PROM use, clinical integration, and reported impacts. Results: Seventeen studies met inclusion criteria, describing 20 PROMs used during paediatric HSCT hospitalisation. PROMs captured a wide range of physical and psychological symptoms, with pain and nausea most frequently reported. While PROMs reportedly improve symptom detection and communication, integration into routine paediatric HSCT clinical care was rare; and only two studies systematically used PROMs data to guide symptom management. Evidence of PROMs-driven improvements in HSCT clinical outcomes was scarce, and longitudinal data on symptom trajectories were limited. Conclusions: PROMs are not routinely used to inform clinical practice in paediatric HSCT, and current evidence provides only a partial understanding of symptom trajectories and lived symptom experiences during the paediatric acute transplant admission. To realise the full potential of PROMs in enhancing symptom assessment and management, systematic PROMs integration into clinical workflows is required, supported by electronic health record integration, clinician training, and longitudinal research designs that capture symptom evolution across the transplant continuum. Full article

Acute kidney injury (AKI) is a major complication of lupus nephritis and kidney transplantation, inevitably causing ischemia–reperfusion (I/R) injury. We previously confirmed that high-dose voclosporin induces drug nephropathy through aberrant peroxisome accumulation. The latter induces increased renal indole-3-aceticT acid (IAA) production due to the decreased expression of the IAA-degrading enzyme indolethylamine N-methyltransferase (INMT). Conversely, INMT overexpression prevents this nephropathy, suggesting that high-dose voclosporin could enable a novel therapeutic approach. This prompted us to test whether INMT overexpression with high-dose voclosporin could avert nephrotoxicity and protect against I/R injury. Inmt-overexpressing mice treated with high-dose voclosporin exhibited absence of peroxisomal abnormalities and resistance to I/R injury. RNA sequencing revealed the downregulation of tubular injury markers NGAL (Lcn2) and KIM-1 (Havcr1) concurrent with significant cytokine suppression. Mechanistic analysis revealed the robust induction of Regnase-2, an mRNA decay factor, which directly targeted stem–loop structures within the 3′ untranslated region of Lcn2 and Havcr1, thereby promoting their degradation in proximal tubular cells. Importantly, Regnase-2 knockdown mice showed Lcn2 upregulation, mitochondrial dysfunction, and peroxisomal abnormalities culminating in AKI, underscoring its renal protective effects. High-dose voclosporin under Inmt overexpression promoted Regnase-2-mediated mRNA decay to suppress tubular injury. This protective effect extended beyond I/R to rhabdomyolysis- and lipopolysaccharide-induced AKI to prevent nephropathy. Our findings demonstrate the potential transformative therapeutic approach of administering high-dose voclosporin to promote the prophylactic effect of Regnase-2 augmentation against AKI in both native and transplanted human kidneys. Full article

Corneal fibrosis, clinically referred to as corneal scarring, disrupts the normal architecture and transparency of the cornea and remains a major cause of visual impairment worldwide. Although corneal transplantation can restore vision, its effectiveness is constrained by limited accessibility, donor tissue shortages, and the risk of allograft rejection. Treatments with human corneal stromal stem cells (hCSSCs) have demonstrated scarless healing in preclinical models of acute corneal injury. Here, we report that hCSSCs also modulated pre-existing corneal opacities. We established a reproducible in vivo model of chronic corneal opacity. Given that scar severity varies among corneas even after identical injuries, we developed a non-invasive, image-based method to quantify opacity volume longitudinally in individual corneas. Using this approach, we evaluated the scar-reducing potential of three hCSSC batches previously shown to inhibit acute scarring. Following cell treatment, the pre-existing opacity volumes gradually decreased. In vitro, hCSSCs exposed to pro-inflammatory stimulus exhibited increased metalloproteinase (MMP) activity relative to tissue inhibitor of metalloproteinase (TIMP), as indicated by an elevated MMP2/TIMP2 ratio. This shift may promote matrix remodeling and scar resolution. Overall, our findings provide proof-of-concept for hCSSC-based therapy as a strategy to reduce established corneal scarring and restore corneal transparency. Full article

Purpose: The objective of this study was to engineer and optimize a mucoadhesive, positively charged stearylamine-enriched liposomal platform, termed Aminosomes, to circumvent the biophysical barriers limiting the ocular bioavailability of Brimonidine Tartrate (BT), an alpha-2 adrenergic receptor agonist for glaucoma management. Methods: Aminosomes were synthesized using a tailored ethanol injection technique and optimized via a 3² × 2¹ full factorial design. Molecular integrity and crystallinity were assessed using Fourier-transform infrared spectroscopy (FTIR) and X-ray diffraction (XRD). The mucoadhesive potential was validated through a mucin interaction assay based on zeta potential shifts. In vitro release kinetics were evaluated using the dialysis membrane diffusion technique, while the therapeutic potential and ocular safety were validated through in vivo pharmacodynamic profiling of intraocular pressure (IOP) reduction, alongside comprehensive biocompatibility assessments via Draize irritancy protocol and histopathological examination. Results: The optimized Aminosomes exhibited nanometric dimensions, monodisperse size distribution, robust positive surface charge, and superior drug loading. FTIR and XRD analyses confirmed the chemical compatibility of the formulation components, as well as the successful encapsulation of BT and its transition to an amorphous state within the lipidic matrix. The mucoadhesion test demonstrated a high binding affinity for mucin. The in vitro release profile demonstrated a sustained-release pattern (78.8% over 12 h). Non-compartmental pharmacodynamic analysis of IOP-reduction data revealed a 2.8-fold increase in AUC_0–24h, 3.5-fold extension in t_1/2, and 5.2-fold prolongation in mean residence time (MRT) relative to the standard solution. Conclusions: The optimized Aminosomes demonstrated superior mucoadhesive anchoring, enhanced and sustained therapeutic flux without inducing ocular toxicity, offering a robust strategy for enhancing the pharmacodynamics of BT. Full article

Background: Adipose-derived mesenchymal stem/stromal cells (ADSCs) are gaining recognition in regenerative medicine for their potential for adipogenic, osteogenic, and chondrogenic differentiation, as well as their immunomodulatory properties. However, ADSC-based therapies focus either on differentiation for tissue replacement or on counteracting unrestrained inflammation to prevent tissue destruction and initiate regeneration. Here, we aim to examine the immunomodulatory potential of osteogenically differentiated ADSCs by analyzing their proteomic profile. Methods: Using LC-MS/MS, we generated the proteomic profiles of differentiated and undifferentiated ADSCs and compared them with the Reactome database. Transcriptomic analysis was also performed and compared with the proteomic profile. Results: Comparison of the proteomic (499 up-regulated; 355 down-regulated) and transcriptomic (212 up-regulated; 232 down-regulated) profiles showed 60.1% concordance—both proteins and transcripts showed the same trend. Significantly upregulated proteins in differentiating ADSCs (−log₁₀ p > 5 and >10) were grouped into four categories: propensity for osteogenic differentiation; immunomodulation/immune/inflammatory response; cell senescence; and cell cycle regulation. Among those proteins, thirteen were reported to play roles in processes such as immunomodulation, inflammatory signaling, or transplant rejection. Conclusions: We observed that differentiating ADSCs might still exert immunomodulatory effects, which could be used in the treatment of, e.g., bone defects. Full article