Search Results (1,511)

Natural killer (NK) cells are increasingly recognized as a complementary platform to T-cell-based cancer immunotherapies. Their innate, MHC-unrestricted recognition, capacity to mediate antibody-dependent cellular cytotoxicity (ADCC) and comparatively favorable toxicity profile have given rise to a broad therapeutic pipeline that includes cytokine-supported regimens, adoptive NK products, bispecific and trispecific NK engagers, and chimeric antigen receptor (CAR)-engineered NK cells. Clinical data, particularly in hematologic malignancies, show that NK-cell-based strategies can be safe and biologically active, although limited persistence, suboptimal trafficking and immune escape remain key challenges. Nasopharyngeal carcinoma (NPC), an Epstein–Barr virus (EBV)-driven epithelial cancer, illustrates how a tumor microenvironment (TME) can simultaneously impair NK function and create specific vulnerabilities that NK-focused therapies can exploit. This review summarizes NK biology and current therapeutic platforms, analyzes major limitations, highlights the specific context of NK-cell-based strategies in NPC and compares NK- and T-cell-based therapies with an emphasis on clinical translation. Full article

Nipah virus (NiV) is an animal-borne RNA virus of the genus Henipavirus that poses a significant global health threat. This threat is driven by the virus’s high mortality rate, its capacity to cause epidemics, and the lack of licensed therapeutic interventions or vaccines. Since its initial identification during the 1998–1999 outbreak in Malaysia and Singapore, recurrent episodes have occurred primarily in Bangladesh and India, with mortality rates frequently exceeding 70%. Fruit bats of the genus Pteropus serve as the biological host for the virus. Transmission to humans occurs via contact with infected wildlife, consumption of contaminated products, such as freshly harvested date palm sap, or direct person-to-person exposure. Other modes of transmission, such as transplacentally or via breast milk, are still under investigation. The clinical presentation of NiV infection varies widely, from mild flu-like symptoms to life-threatening respiratory disease and acute encephalitis. It frequently attacks the nervous system, which can lead to coma, permanent neurological damage, or relapsing encephalitis. The virus enters host cells via ephrin-B2/B3 receptors, enabling systemic dissemination and infiltration of the central nervous system. Diagnosis relies primarily on RT-PCR and serological assays, and virus isolation requires high-containment laboratories. Management remains largely supportive, as no approved antiviral therapy exists. Experimental agents, such as remdesivir, favipiravir, and monoclonal antibodies such as m102.4, have shown promise in preclinical studies. Multiple vaccine platforms—including subunit, viral vector, mRNA, and nanoparticle-based approaches—are under development, though none is yet licensed for human use. Strengthened surveillance, infection control measures, and continued research are essential to mitigate the threat posed by this emerging pathogen. This review summarizes current knowledge on NiV, including its virology, epidemiology, pathogenesis, transmission, and recent progress in therapeutic and vaccine development. Full article

Human endogenous retroviruses (HERVs) are potential driving forces of the pathophysiology of Myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS), linking post-infectious immune dysfunction to chronic inflammation and immune and neurocognitive dysfunction that are hallmark features of ME/CFS. Accumulating evidence from related autoimmune diseases and cancers has shown that reactivated HERVs can contribute to disease pathogenesis by amplifying immune activation through viral protein-mediated innate sensing, long terminal repeat (LTR)-driven transcription, and disrupting epigenetic silencing. HERV signatures are therefore promising biomarkers for diagnosis, patient stratification for drug-repurposing trials, and therapy monitoring. Accumulating evidence suggests a possible correlation between HERV expression and ME/CFS symptom severity, alterations in immune phenotypes, function and inflammatory gene networks. Importantly, locus-specific HERV profiling is a promising approach for distinguishing ME/CFS from overlapping or co-morbid conditions and healthy controls. Furthermore, HERV-targeted antibodies, immune modulators, epigenetic and antiviral interventions offer promise as concomitant therapeutic strategies for ME/CFS. Additional research incorporating viromics and other-omics validation, functional assays, and HERV-stratified clinical trials is now needed to realise this potential and to transform ME/CFS from a symptom-based syndrome into a mechanism-driven, treatable condition. Full article

The evaluation of therapeutic response is essential in disease monitoring both for disease status and treatment efficacy in inflammatory bowel disease. Here, we focused on the use of positron emission tomography directed towards granzyme B, a serine protease released by activated cytotoxic T cells and natural killer cells, to evaluate the dynamics of therapeutic response in a colitis model. The goal was to explore the use of granzyme B positron emission tomography as a non-invasive biomarker to monitor disease activity and therapeutic response across several treatments in a dextran sulfate sodium-induced colitis model. C57BL/6 interleukin-10 knockout mice were divided into five groups, including a negative control, positive control and three treatment arms (antitumor necrosis factor, prednisolone, and anti-interleukin-23). The negative control group received regular water, while all other groups were induced with colitis via 3% DSS water for 1 week followed by normal water. Treatments were initiated after colitis was induced (anti-TNF antibody, prednisolone, or anti-IL-23 antibody). Positron emission tomography/computed tomography imaging with 68Ga-NOTA-GZP was performed at baseline (after colitis induction, before therapy), and at 1 and 2 weeks after treatment initiation. Histological analyses were also performed at 1 and 2 weeks after treatment initiation. Gzmb expression and histological changes were also assessed with immunofluorescence staining and bulk ribonucleic acid sequencing. Gzmb-targeted PET imaging revealed distinct longitudinal patterns of colonic tracer uptake related to treatment response. In positive control mice with DSS colitis (no treatment), bowel uptake of ⁶⁸Ga-NOTA-GZP increased significantly from baseline to week 2. Anti-TNF treatment reduced granzyme B positron emission tomography uptake significantly at week 2, approaching levels seen in negative controls. In prednisolone-treated mice, ⁶⁸Ga-NOTA-GZP uptake decreased at week 1 but rose significantly by week 2 but still was in normal range. Anti-IL-23 therapy produced a significantly elevated Gzmb PET signal at week 1, followed by a significant decline by week 2 of treatment. The imaging trends were corroborated by tissue analyses and IF staining for Gzmb, which revealed no colonic expression in negative controls and strong Gzmb elevation in positive controls and the prednisolone group but a decreased Gzmb signal in the anti-TNF and late anti-IL-23 groups. Bulk RNA sequencing also supported these findings, with Gzmb gene expression tracking with inflammation severity and NK/T cell abundance and decreasing after effective therapy. Gzmb-targeted PET/CT allows for dynamic and non-invasive assessment of intestinal immune compartment activity and an assessment of therapy in colitis. Gzmb PET was able to detect initial treatment responses of anti-TNF, steroid and anti-IL-23 based on changes in the Gzmb PET signal. This suggests that clinical Gzmb PET imaging may serve as precision imaging for monitoring disease activity with treatment in IBD and help improve patient care by identifying responders and non-responders in real time. Full article

Background: Acute lymphoblastic leukemia is the most prevalent childhood cancer and the leading cause of cancer mortality before the age of 20. Although therapeutic advances have significantly improved survival, children and adolescents treated for acute lymphoblastic leukemia remain vulnerable to infections, largely preventable by vaccination, due to humoral and cellular immune dysfunction induced by disease and treatment. Materials and Methods: This systematic review, based on electronic databases, aims to evaluate antibody levels associated with potential protective immunity against vaccine antigens for diphtheria, pertussis, tetanus, poliomyelitis, Haemophilus influenzae type b, measles, mumps, rubella, influenza, varicella-zoster virus, yellow fever, pneumococcal, and meningococcal diseases in children and adolescents treated for acute lymphoblastic leukemia after completion of chemotherapy. Results: A total of twenty-four studies published between 1981 and 2023 were included, comprising 1110 children and adolescents. Protective antibody levels ranged from 11% to 97% for diphtheria, 0% to 90% for pertussis, 20% to 100% for tetanus, and 11% to 95% for poliomyelitis. Haemophilus influenzae type b, protection ranged from 16.7% to 100%. Viral vaccines also showed heterogeneous responses, with protection rates of 25–79% for mumps, 16–86% for measles, 35–98% for rubella, and 23–75% for varicella-zoster virus. Antibody responses to pneumococcal and meningococcal vaccines were consistently low, with protection rates of 5–38% for pneumococcal studies and 12% in a single meningococcal study. Conclusions: This review found a consistent and clinically relevant loss of vaccine-induced immunity in children and adolescents treated for acute lymphoblastic leukemia. The recommendation of vaccine booster doses for this vulnerable population, irrespective of serological status, may represent a more practical approach to ensuring adequate post-chemotherapy treatment protection. Full article

Reversion of amino acid mutations in structural proteins is common in viral evolution. SARS-CoV-2 provides an unprecedented opportunity for ecological studies, thanks to the abundance of available whole genome sequences. YoyoMut allows regular scanning of open SARS-CoV-2 data, reporting on all cyclic and reverting mutations within all proteins (including Spike), with fine-grained trend visualization distinguishing non-mutated from mutated positions (either fixated or cyclically reversed). In the whole CoVSpectrum database, order of 100 reverting and 50 fixated mutations were identified on Spike. Classification is determined using alternative algorithms (based on threshold or slope inversion); finally, a 3D-protein structure allows us to identify spatial clustering of adjacent mutated positions. Systematic, automated monitoring of these behaviors aids immunologists and structuralists in their manual curation. By generating informative reports, our tool supports daily activities that have practical implications for vaccine and therapeutic anti-Spike monoclonal antibody design: prioritizing analysis of cyclic mutation and reversion models could help avoid the recent failures in their development and inform future strategies. Full article

Background/Objectives: Gastric antral vascular ectasia (GAVE) is a gastrointestinal manifestation associated with systemic sclerosis (SSc) that can lead to significant morbidity. This study aimed to characterise and compare the clinical profiles, laboratory findings, therapeutic approaches and survival outcomes of SSc patients with and without GAVE, based on data obtained during their first oesophagogastroduodenoscopy (EGD). Methods: A total of 269 patients who had undergone at least one EGD were selected. Twenty-seven were diagnosed with GAVE and compared with the remaining 242. Results: The overall prevalence of GAVE in SSc patients was 10%. Patients with GAVE had specific features such as a higher median age SSc onset (56.6 vs 48.0 years, p = 0.001), a higher prevalence of Barrett’s oesophagus (14.8% vs. 3.7%, p = 0.011), intestinal involvement (37% vs. 18.6%, p = 0.024) and a trend towards a lower prevalence of interstitial lung disease (25.9% vs. 45.0%, p = 0.057). A higher frequency of early or active Cutolo capillaroscopy pattern (84.6% vs. 62.4%, p = 0.025), greater frequency of anti-centromere antibodies (63.0% vs. 42.1%, p = 0.039) and a trend towards a lower proportion of anti-topoisomerase I (3.7% vs. 18.6%, p = 0.052) was also observed. No difference was found in the prevalence of anti-RNA polymerase III antibodies, survival or mortality. Conclusions: SSc patients with GAVE exhibit a distinct phenotype characterised by older age at disease onset, gastrointestinal involvement, anti-centromere antibodies and early or active capillaroscopic pattern, without differences in survival. Full article

Background: The diagnosis of myelin oligodendrocyte glycoprotein antibody-associated disease (MOGAD) relies on sensitive serological detection of MOG-IgG. Fixed cell-based assays (CBAs) may yield low-positive or borderline results that complicate early clinical decision-making, whereas live CBAs—recommended as the reference method—preserve native antigen conformation and offer higher analytical sensitivity. Importantly, low-positive titres should not be confused with true seronegativity, as they may nevertheless be clinically meaningful. Case Presentation: A 14-year-old previously healthy male presented with left optic neuritis and perineuritis following an upper respiratory infection. Initial MOG-IgG testing on a fixed CBA was low-positive (1:10). He partially responded to intravenous methylprednisolone and required intravenous immunoglobulin (IVIG) for complete resolution. Over three years, he experienced sequential, steroid-dependent bilateral optic neuritis with perineuritis, relapsing on every steroid taper. Rituximab and subsequently mycophenolate mofetil failed to induce remission. Repeat testing with a live CBA at a reference laboratory yielded a high-positive MOG-IgG titre of 1:1000, confirming MOGAD. Tocilizumab (8 mg/kg every 4 weeks) was initiated and allowed complete corticosteroid withdrawal. At age 18, the patient remained asymptomatic, with an Expanded Disability Status Scale score of 0, best-corrected visual acuity of 20/20 in both eyes, and stable peripapillary retinal nerve fibre layer thickness on spectral-domain optical coherence tomography. Conclusions: In paediatric patients with recurrent optic neuritis with perineural involvement and borderline fixed-CBA results, confirmatory testing with a live CBA at a reference laboratory should be considered to avoid diagnostic delay and therapeutic misdirection. In refractory, steroid-dependent cases, IL-6 receptor blockade may represent a reasonable therapeutic option, in line with emerging evidence. Full article

Background: High-risk cytogenetic multiple myeloma (HRMM) confers inferior outcomes despite significant therapeutic advances. Real-world data characterizing contemporary treatment patterns across lines of therapy in this population are limited. Methods: We conducted a multicenter retrospective study of 205 patients with HRMM diagnosed between January 2009 and January 2024. High-risk cytogenetics were defined according to the International Myeloma Working Group (IMWG) and Revised International Staging System (R-ISS) criteria as the presence of del(17p), t(4;14), t(14;16), t(14;20), and/or gain/amplification of 1q21. Treatment regimens were categorized by the number of agents (doublet, triplet, quadruplet), mechanism of action (proteasome inhibitor [PI]-based, immunomodulatory drug [IMiD]-based, and anti-CD38 monoclonal antibody-based), and specific regimen composition. Treatment patterns were analyzed across three treatment eras and stratified by age (<70 vs. ≥70 years). Results: The cohort included 205 patients (median age, 62 years [interquartile range [IQR], 54–68 years]; 78.5% aged <70 years). Double-hit and triple-hit cytogenetics were present in 60.0% and 7.3% of patients, respectively. For first-line induction, triplet therapy predominated (81.0%, n = 166), followed by quadruplet (8.8%, n = 18), doublet (5.9%, n = 12), and multi-agent chemotherapy (2.9%, n = 6). By mechanism of action, PI + IMiD combinations were the most common (63.4%, n = 130), followed by PI-based (19.0%, n = 39), anti-CD38-based (10.2%, n = 21), and IMiD-based (2.9%, n = 6) regimens. Era-stratified analysis revealed a significant increase in quadruplet utilization from 3.2% in Era 1 (2009–2015) to 20.3% in Era 3 (2020–2024), with anti-CD38-containing frontline regimens administered to 26.6% of patients in the contemporary era (p < 0.001). Second-line induction was required in 50 patients (24.4%), with anti-CD38-based triplets comprising the most common approach (30.0%). Autologous stem cell transplantation (ASCT) was performed in 75.1% of patients overall, with significantly higher utilization in those aged <70 years (83.9% vs. 43.2%). Maintenance therapy was administered to 71.7% of patients (n = 147), with IMiD-based regimens predominating (53.1%), followed by PI + IMiD combinations (27.9%) and anti-CD38-containing regimens (10.2%). Despite intensive therapy, 69.4% of patients on maintenance experienced disease relapse, with higher rates observed in younger patients (74.8% vs. 41.7%). Conclusions: In this real-world HRMM cohort, the PI + IMiD triplet regimen remained the predominant induction approach, with a significant shift toward quadruplet and anti-CD38-containing regimens in the contemporary era. However, substantial relapse rates during maintenance underscore the continued unmet need in HRMM and support the early integration of novel therapeutic strategies, including quadruplet induction and BCMA-directed agents, in this population. Full article

Background and clinical significance: Autoimmune encephalitis (AE) is an inflammatory brain disorder that manifests through a diverse, unspecific range of neuropsychiatric symptoms. When AE occurs alongside a primary neurodegenerative disorder, the shared symptoms can create a mixed clinical profile, making diagnosis more difficult and potentially postponing effective management and treatment. Case presentation: We describe the case of a 58-year-old female with a one-year history of progressive behavioral and personality changes who presented a subacute confusional state, psychomotor retardation alternating with psychomotor agitation, apathy, visual hallucinations, and motor symptoms. Examination revealed Parkinsonian symptoms and frontal lobe signs. Neuroimaging showed frontotemporal atrophy, while cerebrospinal fluid analysis excluded infection but demonstrated elevated phosphorylated tau, supporting an underlying neurodegenerative process. An electroencephalogram revealed asymmetric temporal slowing without overt epileptiform activity. An initial diagnosis of behavioral variant frontotemporal dementia (bvFTD) was established. Due to rapid clinical deterioration and fluctuating cognition, autoimmune testing was expanded to a full antibody panel, which identified elevated serum anti-glutamic acid decarboxylase 65 (anti-GAD65) antibodies (60 UI/mL, reference range 0–5 UI/mL), establishing a possible coexisting diagnosis of anti-GAD65 autoimmune encephalitis. Initial treatment with intravenous immunoglobulin produced minimal improvement; however, therapeutic plasma exchange led to the remission of psychosis and significant improvement in rigidity, bradykinesia, and attention, with modest amelioration in global cognition. Conclusions: This case highlights the diagnostic challenges posed by overlapping AE and bvFTD clinical pictures, especially when neurodegenerative features obscure an underlying autoimmune process. Early, panel-based neural antibody testing—and consideration of AE even in patients already diagnosed with a major neurocognitive disorder—is critical for avoiding delays in immunotherapy. Prompt recognition and treatment of AE may substantially improve clinical outcomes, even in complex cases with suspected overlap. Full article

Dickkopf-1 (DKK1) is a secreted glycoprotein that traditionally acts as an antagonist of canonical Wnt/β-catenin signaling. Although it functions as a tumor suppressor in some specific biological background and disease stages, growing evidence links DKK1 to tumor progression, immune evasion, and therapy resistance in a variety of multiple malignancies. This review provides a comprehensive bench-to-bedside overview of DKK1 in cancer. We first delineate how DKK1 regulates both Wnt-dependent and Wnt-independent pathways. From a clinical perspective, we evaluate the application potential of DKK1 as a diagnostic and prognostic biomarker. We further discuss the progress of DKK1-targeted interventions, ranging from monoclonal antibodies in clinical trials to next-generation therapeutic modalities. Finally, we discuss the challenges in clinical translation and suggest future directions for DKK1-based precision medicine. In summary, by integrating preclinical insights with current clinical data, this review provides a strategic roadmap for advancing DKK1-targeted therapies in cancer. Full article

Myostatin (Mstn), a well-characterized member of the transforming growth factor-β (TGF-β) superfamily, serves as a key negative regulator of skeletal muscle mass. Its overactivation is closely associated with the pathogenesis of various musculoskeletal and metabolic disorders. Over the past decades, inhibiting Mstn has emerged as a promising therapeutic strategy to promote muscle growth. A range of Mstn-targeted inhibitors has been developed, yielding encouraging preclinical and clinical outcomes. These include small molecules, monoclonal antibodies, peptibodies, and gene therapy-based approaches. This review summarizes the biological structure and function of Mstn, provides a comprehensive overview of recent advances in Mstn-targeted therapeutics, and offers critical insights into future directions for drug development and clinical translation. Full article

Natural killer/T-cell lymphoma (NKTCL) is a rare and aggressive Epstein–Barr virus (EBV)-associated lymphoma characterized by intrinsic chemoresistance and an immunosuppressive tumor immune microenvironment (TIME). EBV-driven immune dysregulation provides a biological rationale for immunotherapy. This review summarizes current advances in immunotherapeutic strategies for NKTCL, integrating molecular mechanisms, clinical evidence, and resistance mechanisms within the context of TIME remodeling and immune reprogramming. We synthesize evidence from clinical trials, translational studies, and preclinical investigations evaluating immune checkpoint inhibitors, antibody-based therapies, adoptive cellular therapies, immune engagers, EBV-directed immunotherapies, and multimodal combination strategies in NKTCL. Among these strategies, PD-1/PD-L1 inhibitors are the most extensively studied immunotherapies in NKTCL and demonstrate clinically meaningful activity across different clinical settings. However, therapeutic responses remain heterogeneous, and primary or acquired resistance is common, driven by EBV-associated immune suppression, defective antigen presentation, metabolic reprogramming, and multi-checkpoint co-expression. Beyond immune checkpoint blockade, emerging approaches—including dual-checkpoint inhibition, epigenetic and metabolic combinations, antibody–drug conjugates, EBV-specific cytotoxic T lymphocytes, chimeric antigen receptor (CAR)-based platforms, immune engagers, and EBV vaccines—have shown encouraging signals in early-phase studies. Increasing evidence also supports multimodal strategies integrating immunotherapy with radiotherapy and other immune-modulatory interventions to enhance immune reprogramming and improve response durability. Overall, immunotherapy has substantially expanded the therapeutic landscape of NKTCL but remains constrained by complex EBV–TIME interactions and interpatient heterogeneity. Future progress will rely on biologically informed patient stratification, rational multimodal combination strategies, and integration of innovative immune platforms to establish a durable, immune-reprogramming-centered treatment paradigm for EBV-driven NKTCL. Full article

Peripheral nerves provide a direct connection between the brain and the tumor microenvironment. This connection allows the nervous system to influence processes associated with the development, progression, and metastasis of different tumor types. Therefore, tumor innervation by peripheral nerve fibers is currently emerging as a characteristic that contributes to multiple hallmarks of cancer. Several experimental studies have shown that cancer progression involves actively inducing the ingrowth of autonomic and sensory nerve fibers into tumor tissue. In this process, known as neoaxonogenesis, cancer and other cells in the tumor microenvironment play an important role by synthesizing and releasing neurotrophic factors (e.g., nerve growth factor, brain-derived neurotrophic factor, glial cell line-derived neurotrophic factor), axonal guidance molecules (netrins, semaphorins, ephrins, slits), exosomes (containing microRNA and axonal guidance molecules), and other molecules present in the tumor microenvironment (e.g., granulocyte colony-stimulating factor, leukemia inhibitory factor), which modulate the ingrowth of nerve fibers into the tumor. This results in an increased nerve supply to tumor tissue, which is primarily linked to its growth. However, there are also studies demonstrating the protective effects of increased nerve fiber density against processes associated with cancer progression in certain types of cancer. The findings from these studies contribute to the complexity of neuro-cancer interactions, which is probably based on the type of cancer and the physiological specializations of the nerve fibers in a given organ. Despite contrasting findings, the stimulatory effects of nerve fibers on cancer growth are supported by several studies that described reducing the negative impact of nerve fibers on tumors and thus inhibiting cancer progression. The most significant approaches to reducing neural effects appear to be denervation, the administration of neurotransmitter receptor antagonists, the administration of local anesthetics, and the administration of antibodies against neurotrophic factors. Other significant approaches include methods that improve quality of life, such as psychotherapy and heart rate variability biofeedback. Despite their therapeutic potential, there are several limitations to using approaches that manipulate cancer innervation in clinical practice. These limitations include impaired normal tissue function and nervous system function, as well as the problematic direct application of the therapeutic agent to the tumor site, dosage-dependent, cancer type-dependent, cancer stage-dependent, duration-dependent, and timing-dependent effects. Procedures that modify neoaxonogenesis and nerve fiber signaling appear to be a promising new therapeutic approach in oncology. However, more research is needed to better understand their effects on cancer progression. In the future, the assessment of the presence and density of nerve fibers in tumors, as well as the evaluation of approaches aimed at reducing their negative impact, could be part of personalized anticancer therapy. As part of this therapy, a fresh tumor sample would be collected from the patient to generate patient-derived organoid models to test and consider the possibility of using supportive therapy and to predict its efficacy. Based on these results, it would be possible to evaluate the applicability of nerve-fiber-targeted therapy for a given patient. This review article summarizes and describes the current knowledge concerning the significance of nerve fibers in cancer progression, with a particular emphasis on neoaxonogenesis in tumors and the various factors that influence this process. Full article

Melanoma is a heterogeneous, complex and aggressive disease that, despite recent advances in molecular-targeted drugs and molecular and genetic analysis, represents approximately 65% of skin cancer deaths, and unfortunately survival dramatically decreases in melanoma stages III/IV. In young people there is an increased incidence of developing melanoma; hence new therapeutic strategies must be urgently investigated. Peptidergic systems play a crucial role in these strategies to fight melanoma. The scope of this review is to show the enormous potential of targeting peptidergic systems alone or in combination therapy with standard therapeutic strategies currently used in clinical practice to treat melanoma. In this sense, key points such as peptidergic systems and anti-melanoma treatments, oncogenic/anti-melanoma peptides, peptide receptors, peptidergic systems, melanoma risk and immune system relationships, clinical relevance, peptidergic systems and delivery strategies in melanoma will be discussed. Peptides exert oncogenic, anti-melanoma and dual oncogenic and anti-melanoma effects in melanoma, showing a high functional complexity in regulating melanoma development. A plethora of anti-melanoma strategies have been developed or repurposed for potential clinical applications, including peptide/peptide receptor antibodies, peptide receptor antagonists or agonists, enzyme inhibitors, CAR-macrophages, microRNAs and vaccines. Strategies for peptide delivery and protection from enzymatic degradation have also been developed. Some of the previous anti-melanoma strategies are based on the expression/overexpression of peptide receptors in melanoma cells which is crucial for diagnosis, melanoma risk and progression and metastasis development and for the application of more specific and safer anti-melanoma strategies. A meticulous and in-depth study of the peptidergic systems may help to understand how peptidergic systems regulate melanoma progression and shed light on possible therapeutic applications that can be applied in clinical practice. This review shows the enormous potential of targeting peptidergic systems alone or in combination therapy with standard therapeutic strategies currently used in clinical practice to treat melanoma. The benefits to be gained from these studies will be enormous because the peptidergic systems are promising antitumor targets in melanoma, based on the numerous anti-melanoma strategies that have been developed until now. Full article