Search Results (644)

Background and Objective: Insulinoma-associated protein 1 (INSM1) is a novel immunohistochemical marker with potential utility in identifying neuroendocrine differentiation in lung cancer. Unlike conventional neuroendocrine (NE) markers, INSM1 can potentially serve as a standalone diagnostic biomarker. This study presents the first meta-analysis assessing the diagnostic accuracy of using INSM1 to distinguish LCNEC and SCLC from other lung cancer subtypes, addressing the variability across individual studies. Methods: A systematic review and meta-analysis were conducted to comprehensively evaluate the diagnostic performance of INSM1 in the pathological classification of lung cancer. The online databases PubMed, Web of Science, and Embase were systematically searched for data collection. Studies reporting the sensitivity and specificity of INSM1 in diagnosing LCNEC and SCLC were included. Pooled estimates were calculated using two models: the NSCLC model, which distinguishes LCNEC from other non-small cell lung cancers (NSCLCs), and the lung cancer model, which differentiates both LCNEC and SCLC from non-neuroendocrine (non-NE) lung cancer. Results: Fourteen studies comprising 3,218 specimens were included in this systematic review and meta-analysis. In the NSCLC model, INSM1 demonstrated a pooled sensitivity of 0.67 (95% CI: 0.61–0.73) and specificity of 0.97 (95% CI: 0.96–0.98), with an area under the curve (AUC) of 0.943. In the lung cancer model, the pooled sensitivity and specificity were 0.86 (95% CI: 0.84–0.88) and 0.97 (95% CI: 0.96–0.98), respectively, with an AUC of 0.974. Conclusions: INSM1 demonstrated excellent diagnostic accuracy and consistently high specificity for pulmonary neuroendocrine carcinomas, supporting its utility as a reliable standalone immunohistochemical marker with the potential to replace conventional NE markers in the pathological diagnosis of LCNEC and SCLC. Full article

Background/Objectives: Alectinib, a second-generation tyrosine kinase inhibitor indicated for the treatment of non-small-cell lung cancer (NSCLC), exhibits suboptimal oral bioavailability, primarily attributable to its inherently low aqueous solubility and limited dissolution kinetics. This study aimed to enhance Alectinib’s solubility and therapeutic efficacy by formulating a G4-NH2-PAMAM dendrimer complex. Methods: The complex was prepared using the organic solvent evaporation method and characterized by DSC, FTIR, dynamic light scattering (DLS), and zeta potential measurements. A validated high-performance liquid chromatography (HPLC) method quantified the Alectinib. In vitro drug release studies compared free Alectinib with the G4-NH2-PAMAM dendrimer complex. Cytotoxicity against NSCLC cell line A549 was assessed using MTT assays, clonogenic assay, and scratch-wound assay. Xenograft effect was investigated in the H460 lung cell line. Pharmacokinetic parameters were evaluated in rats using LC–MS/MS. Results: Alectinib exhibited an encapsulation efficiency of 59 ± 5%. In vitro release studies demonstrated sustained drug release at pH 6.8 and faster degradation at pH 2.5. Anticancer activity in vitro showed comparable efficacy to free Alectinib, with 98% migration inhibition. In vivo tumor suppression studies revealed near-complete tumor regression (~100%) after 17 days of treatment, compared to 75% with free Alectinib. Pharmacokinetic analysis indicated enhanced absorption (shorter Tmax), prolonged systemic circulation (longer half-life), and higher bioavailability (increased AUC) for the dendrimer-complexed drug. Conclusions: These findings suggest that the G4-NH2-PAMAM dendrimer system significantly improves Alectinib’s pharmacokinetics and therapeutic potential, making it a promising approach for NSCLC treatment. Full article

Non-small cell lung cancer (NSCLC) is a predominant form of lung cancer that is often diagnosed at an advanced metastatic stage. The processes of cancer cell migration and invasion involve epithelial-to-mesenchymal transition (EMT), which is crucial for metastasis. Targeting cancer aggressiveness with effective plant compounds has gained attention as a potential adjuvant therapy. Eurycomanone (ECN), a bioactive quassinoid found in the root of Eurycoma longifolia Jack, has demonstrated anti-cancer activity against various carcinoma cell lines, including human NSCLC cells. This study aimed to investigate the in vitro effects of ECN on the migration and invasion of human NSCLC cells and to elucidate the mechanisms by which ECN modulates the EMT in these cells. Non-toxic doses (≤IC20) of ECN were determined using the MTT assay on two human NSCLC cell lines: A549 and Calu-1. The results from wound healing and transwell migration assays indicated that ECN significantly suppressed the migration of both TGF-β1-induced A549 and Calu-1 cells. ECN exhibited a strong anti-invasive effect, as its non-toxic doses significantly suppressed the TGF-β1-induced invasion of NSCLC cells through Matrigel and decreased the secretion of MMP-2 from these cancer cells. Furthermore, ECN could affect the TGF-β1-induced EMT process in various ways in NSCLC cells. In TGF-β1-induced A549 cells, ECN significantly restored the expression of E-cadherin by inhibiting the Akt signaling pathway. Conversely, in Calu-1, ECN reduced the aggressive phenotype by decreasing the expression of the mesenchymal protein N-cadherin and inhibiting the TGF-β1/Smad pathway. In conclusion, this study demonstrated the anti-invasive activity of eurycomanone from E. longifolia Jack in human NSCLC cells and provided insights into its mechanism of action by suppressing the effects of TGF-β1 signaling on the EMT program. These findings offer scientific evidence to support the potential of ECN as an alternative therapy for metastatic NSCLC. Full article

In recent years, an increasingly important role in the etiopathogenesis of lung cancer has been attributed to genetic predisposition. Current genetic research suggests that the increased risk of this cancer may be due to gene polymorphism within repair genes. In the case of lung cancer, observations about genes involved in the DNA repair system by cutting bases of nitrogen—base excision repair (BER)—seem to be interesting. Most attention has been devoted to the XRCC1 gene, which coordinates the various stages of BER. The aim of this study was to assess the role of the single nucleotide polymorphism Arg399Gln in the XRCC1 gene as a factor influencing the risk of lung cancer. The study involved 118 patients with non-small cell lung cancer (NSCLC). The control group consisted of 60 people who did not have cancer. The study proved that the polymorphism of the XRCC1 gene is characterized by a statistically significant relationship with the onset of cancer. There were no statistically significant differences between the Arg399Gln polymorphism of the XRCC1 gene and risk factors for non-small cell lung cancer, such as age, sex, smoking and its duration, or place of residence, as well as between the histological type of the tumor or its severity. Detailed analysis of three genotypes—Arg/Arg, Arg/Gln, and Gln/Gln—showed that the incidence of particular genotypes in the group of patients was, respectively, 16.10%, 27.12%, and 58.78%. In the case of the Gln/Gln genotype, the most common associated histopathological type was squamous cell carcinoma, and in the case of adenocarcinoma, the most common genotype was Arg/Arg. It was estimated that each Arg allele reduced the chance of tumor occurrence to 0.48 times the reference value, i.e., the Gln/Gln genotype class for the Arg/Gln genotype and the Arg/Gln genotype for the Arg/Arg genotype. The relationship between the male sex and the occurrence of cancer remained insignificant, in contrast to the presence of nicotinism. Studies suggest that the Arg399Gln polymorphism of the XRCC1 gene has limited prognostic significance in non-small cell lung cancer. Full article

Health outcomes for people with HIV (PWH) have improved significantly with combination antiretroviral therapy (ART), yet the risk of lung cancer remains elevated. While a single case cannot establish causality, we describe here an investigation of a 74-year-old male PWH with de novo high-grade neuroendocrine small cell lung carcinoma. To investigate the potential contribution of HIV to cancer development, we performed HIV integration site sequencing on blood, tumor, and non-tumor tissue samples from the patient. We analyzed integration site distribution, clonal expansion, and associated gene disruption. Phosphatase and Tensin Homolog (PTEN) expression was evaluated using immunofluorescence and microscopy. A total of 174 unique HIV integration sites were identified, with 29.9% (52/174) located in clonally expanded cells. The most frequent integration site in clonally expanded cells was within the PTEN gene, representing 4.2% to 16.7% of all HIV-infected cells across samples. PTEN expression was markedly reduced in tumor regions relative to non-tumor tissue. Areas positive for HIV p24 antigen showed minimal PTEN expression. These findings suggest that HIV integration into the PTEN gene, coupled with clonal expansion of HIV-infected cells, may impair anti-tumor immune responses and promote cancer progression in PWH. Full article

Background: Lung cancer, predominantly NSCLC (80%), has a poor prognosis due to late diagnosis and limited treatment efficacy. DMRTA2 (DMRT5), a transcription factor linked to neural/germ cell development, is overexpressed in NSCLC per TCGA data, indicating its potential role in tumorigenesis and as a therapeutic target. Methods: Conduct a comprehensive search of the relevant theoretical foundations. Based on this, differential expression analysis will be performed using the DESeq2 package in R on RNA-seq data from lung adenocarcinoma and lung squamous cell carcinoma in the TCGA database. The research will then employ various methods, including CRISPR genome editing, MTS assay, flow cytometry, Western blot, co-immunoprecipitation, immunofluorescence, and qRT-PCR. Results: Through experimental validation, we found that DMRTA2 mRNA is highly expressed in non-small-cell lung cancer (NSCLC) tissues and is negatively correlated with poor prognosis. DMRTA2 binds to HSP90β, inhibiting the interaction between HSP90β and p53, thereby suppressing p53 ubiquitination and nuclear export. This activates the p53 pathway, inhibiting the proliferation and invasion of lung cancer cells. Conclusions: In NSCLC, DMRTA2 acts as a context-dependent regulator, stabilizing wild-type p53 through competitive HSP90β binding to suppress tumors, while in p53-compromised cells, potentially engaging HSP90β or alternative pathways to promote malignancy. Its dual localization and transport interactions reveal multifunctional, stress-responsive roles beyond transcription. Full article

Poly(ADP-ribose) polymerases (PARP) are a family of enzymes that were proven to play an essential role in the initiation and activation of DNA repair processes in the case of DNA single-strand breaks. The inhibition of PARP enzymes might be a promising option for the treatment of several challenging types of cancers, including triple-negative breast cancer (TNBC) and non-small cell lung carcinoma (NSCLC). This study utilizes several techniques to screen the compound collection of the Leibniz Institute of Plant Biochemistry (IPB) to identify novel hPARP-1 inhibitors. First, an in silico pharmacophore-based docking study was conducted to virtually screen compounds with potential inhibitory effects. To evaluate these compounds in vitro, a cell-free enzyme assay was developed, optimized, and employed to identify hPARP-1 inhibitors, resulting in the discovery of two novel scaffolds represented by compounds 54 and 57, with the latter being the most active one from the compound library. Furthermore, fluorescence microscopy and synergism assays were performed to investigate the cellular and nuclear pathways of hPARP-1 inhibitor 57 and its potential synergistic effect with the DNA-damaging agent temozolomide. The findings suggest that the compound requires further lead optimization to enhance its ability to target the nuclear PARP enzyme effectively. Nonetheless, this new scaffold demonstrated a five-fold higher PARP inhibitory activity at the enzyme level compared to the core structure of olaparib (OLP), phthalazin-1(2H)-one. Full article

Epigenetics and genome science have become central to current molecular biology research. Among the key mechanisms ensuring genomic integrity is the silencing of transposable elements in germline cells, a process essential for fertility in both sexes. A pivotal component of this silencing machinery involves PIWI-interacting RNAs (piRNAs), a distinct class of small non-coding RNAs that regulate gene expression and suppress transposable elements at both the transcriptional and post-transcriptional levels. piRNAs function in concert with PIWI proteins, whose expression is critical for proper oogenesis, spermatogenesis, and early zygote development. Disruptions in piRNA or PIWI protein pathways not only impair germline function but also contribute to genome instability, unchecked cell proliferation, and aberrant epigenetic modifications, hallmarks of tumorigenesis. Emerging evidence links the dysregulation of the piRNA/PIWI axis to the development and progression of various cancers, including lung and colorectal carcinomas. This review highlights the fundamental roles of piRNAs and PIWI proteins in reproductive biology and their increasingly recognized relevance in cancer biology. Full article

Background/Objectives: Lung cancer is the leading cause of cancer-related mortality worldwide. Accurate radiotherapy (RT) planning alongside chemotherapy and immunotherapy is critical for improving treatment outcomes for inoperable non-metastatic cases. Conventional computed tomography (CT)-based planning may be inadequate for accurately identifying tumor margins and the location of nodal disease. We investigated whether ¹⁸F-labeled fluorodeoxyglucose positron emission tomography (¹⁸F-FDG PET-CT) imaging can assist in target volume delineation for primary, nodal, and metastatic disease in the RT planning and overall therapeutic planning of patients. Methods: In this single-center, prospective study, we recruited 34 patients with histologically confirmed locally advanced non-small-cell lung carcinoma (NSCLC). All patients underwent ¹⁸F-FDG PET-CT-based RT simulation. Two sequential RT plans were created by the same radiation oncologist: one based on CT alone and the other PET-CT. Planning target volumes (PTVs) and PET-CT-guided adjustments were analyzed to assess their impact. Standardized protocols for immobilization, imaging, target delineation, and dose prescription were applied. Results: A total of 34 patients (31 males and 3 females) were recruited in the study. ¹⁸F-FDG PET-CT detected distant metastases in 7/34 (20.6%) patients, altering the overall therapeutic plan in 4/34 (11.8%) and allowing radical RT in 3 of them who had oligometastatic disease (8.8%). It modified RT planning in 26/34 (76.5%) patients and clarified malignancy in atelectatic areas. Nodal involvement was identified in 3/34 patients (8.8%) and excluded in 3/34 cases, avoiding unnecessary nodal irradiation. Additional involved nodes were revealed in 12/34 (35.3%) patients, requiring dose escalation. Overall, changes to the tumor PTV were made in 23/30 (76.6%) and to the nodal PTV in 19/30 (63.3%) cases (p < 0.0001). Primary tumor and nodal PTVs increased in 20/34 (66.7%) and 13/34 (43.3%), respectively. Conclusions: ¹⁸F-FDG PET-CT significantly improves RT planning by more precisely defining tumor and nodal volumes, identifying undetected lesions, and guiding dose adaptation. Larger long-term studies are required to confirm potential locoregional control and survival improvements. Full article

Non-small cell lung cancer (NSCLC) accounts for 85% of lung cancer cases globally and most patients receive their diagnosis at advanced or metastatic disease stages. The use of tyrosine kinase inhibitors (TKIs) such as erlotinib (first-generation) and osimertinib (third-generation) to treat NSCLC is possible because of activating mutations in the epidermal growth factor receptor (EGFR). Although osimertinib has shown better results in recent trials, direct and updated comparisons with erlotinib, especially in combination regimens, are still limited. Background/Objectives: This study aimed to compare the efficacy and safety of osimertinib versus erlotinib, both as monotherapies and in combination, in treatment-naïve patients with advanced or metastatic EGFR-mutated NSCLC. Methods: A systematic review and network meta-analysis were conducted following PRISMA-NMA guidelines and registered in PROSPERO (CRD42025649761). PubMed, EMBASE, and Scopus were searched up to February 2025 for randomized controlled trials (RCTs) that compared erlotinib- or osimertinib-based regimens in previously untreated EGFR-mutated advanced NSCLC. Outcomes included overall survival (OS), progression-free survival (PFS), and grade ≥ 3 adverse events. A frequentist random-effects model was used, and treatments were ranked using p-scores. Results: Eleven RCTs (2341 patients) were included. Osimertinib, alone or with chemotherapy, resulted in significantly longer OS compared to erlotinib-based regimens (HR for OS vs. erlotinib: 1.59, 95% CI 1.09–2.31). All osimertinib and erlotinib regimens outperformed chemotherapy for PFS, but no statistically significant differences were observed between osimertinib and erlotinib. Severe adverse events were comparable, though osimertinib ranked highest for safety. The combination of osimertinib with chemotherapy achieved the highest p-scores for both OS and PFS. Conclusions: Osimertinib is associated with superior overall survival and comparable safety versus erlotinib-based strategies in first-line treatment of advanced EGFR-mutated NSCLC. These findings reinforce osimertinib as the preferred first-line option in this setting. Full article

Background: Organoid cultures have received much attention in recent years due to the promise of patient-derived organoid cultures for exploration of personalized cancer treatment strategies. Organoid cultures have been established from a variety of malignancies; however, lack of a thorough histopathological analysis has limited the acceptance of organoid models as translational tools. Methods: Here, we aimed to establish patient-derived tumor-organoid (PDTO) models from human non-small-cell lung cancer (NSCLC) resection specimens and provide a thorough histopathological evaluation of the cultures. Results: We show that we were able to establish organoid cultures of lung adenocarcinomas (LUADs) and lung squamous cell carcinomas (LUSCs) successfully, and that the organoid cultures of different subtypes of NSCLC preserved the histoarchitecture and growth pattern of the tumors they derive from. Immunohistochemistry and AB-PAS staining confirmed the subtype-specific protein expression pattern and preserved mucin production in LUAD organoids. The genetic abnormalities of the tumors assessed by immunohistochemistry (IHC-P) were preserved in the organoid cultures. Conclusions: Our thorough study reveals conserved PDTO histopathology, supports further exploration, and encourages using PDTO models in translational research projects. PDTO models hold remarkable promise as patient-specific models and may be applied to predict therapy response in cases where molecular–pathological analyses pose significant management dilemmas, and they also may provide a platform for exploring the molecular mechanisms of therapy resistance in a biologically relevant model system. Full article

MTH1 (MutT Homolog 1) protein is one of the enzymes that protect cells from mutagenetic actions of reactive oxygen species. It sanitizes the pool of free nucleotides, making sure that oxidized dNTPs are not incorporated into the DNA. Any misfunction of it would lead to mutations. As such, it has attracted interest of cancer researchers, and multiple studies have been conducted over the years to determine its role in tumor cells. It has been found that MTH1 is not downregulated in most tumor tissues but, to the contrary, often overexpressed. This suggests that MTH1 is used by cancer as an adaptation to increased oxidative stress caused by metabolic reprogramming to support excessive proliferation. Based on this premise, many recent studies have evaluated MTH1 as either prognostic factor, general biomarker or therapeutic target in cancer. Here, we summarize all available research on MTH1 mRNA, protein and its enzymatic activity in clinical samples across various cancer types, identifying a subset of cancers where MTH1 plays an important role. This is particularly evident in cancers characterized by high metabolic activity and oxygen-rich environments, such as hepatocellular carcinoma, renal cell carcinoma, or non-small cell lung adenocarcinoma. Full article

DNA methylation changes, especially hypermethylation of SOX1 and HOXA9, may serve as biomarkers for diagnosis and prognosis in non-small cell lung carcinoma (NSCLC). This study analyzed the methylation status of SOX1 and HOXA9 in 63 primary NSCLC tumor samples, corresponding normal lung tissues, and circulating blood, using bisulfite pyrosequencing. The relationship between methylation patterns and clinicopathologic features was also explored. SOX1 and HOXA9 promoter methylation levels were significantly higher in tumor tissues compared to normal lung tissues and blood samples. Histological subtypes influenced methylation patterns, with squamous cell carcinomas (SCC) showing higher hypermethylation rates at both loci compared to other NSCLC subtypes. HOXA9 hypermethylation was associated with advanced tumor stage (stages II and III). Gender and smoking status did not correlate with methylation status. These findings highlight the cancer-specific nature of SOX1 and HOXA9 hypermethylation in NSCLC. Further investigation into demographic and molecular factors influencing methylation could enhance the clinical utility of SOX1 and HOXA9 in NSCLC diagnosis and management. Full article

Neuroendocrine transformation in non-small-cell lung cancer (NSCLC) is an uncommon but clinically significant resistance mechanism to targeted therapy, immunotherapy, and chemotherapy. This phenomenon, primarily observed in adenocarcinoma (ADC) with EGFR mutations under tyrosine kinase inhibitor (TKI) treatment, leads to histological transformation into small-cell lung cancer (SCLC), commonly associated with an aggressive clinical course and poor prognosis. Standard platinum–etoposide chemotherapy provides only transient disease control, highlighting the urgent need for improved therapeutic strategies. Early identification of transformation through biopsy, liquid biopsy, or biomarkers like neuron-specific enolase (NSE) and pro-gastrin-releasing peptide (pro-GRP) may allow for early intervention. As targeted therapies continue to develop, understanding the molecular drivers of neuroendocrine transformation is crucial for optimizing treatment. Further research into novel treatment approaches, including combination therapies with TKIs, chemotherapy, immunotherapy, and epigenetic modulators, is required to improve outcomes for these patients. Full article

Background: A glioblastoma (GBM) is a type of tumor originating from the glial brain cells, the astrocytes, and thus belongs to the astrocytoma group. Bevacizumab (BV) is a treatment for GBM. BV is the active ingredient in the drugs Avastin^®, Alymsys^®, Mvasi^® and ZiraBev^®. It is currently approved as second-line treatment for GBM recurrence in combination with radiotherapy, and as first-line treatment for other cancers, including advanced colorectal cancer, metastatic breast cancer and advanced non-small-cell lung cancer. The objective of this systematic review was to analyze the scientific evidence from the science-based literature on the therapeutic effect and adverse effects of the drug BV in patients with GBM or GBM multiforme. Methods: We systematically searched electronic databases for the literature search, including the MEDLINE (via PubMed), SCOPUS, Google Scholar, the Cumulative Index to Nursing and Allied Health Literature and Web of Science databases, covering records from their earliest data to December 2024. Randomized or controlled clinical trials that were published in English or Spanish were included. The following keywords were used in different combinations: “Bevacizumab therapy”, “Bevacizumab pharmaceutical”, “Glioblastoma”, “Glioma” and “multiform glioblastoma”. Results: The use of Bevacizumab has been extensively studied in the scientific literature, with beneficial effects in symptom control. However, the adverse effects of BV vary across different types of carcinomas, which is why it has already been established that these adverse effects must be taken into consideration. In our meta-analysis of adverse effects, we found 14 adverse effects and estimated their prevalence, with an average of 19% (CI: 4 to 44%). The most significant vascular adverse effect was thromboembolism, which led to a greater number of complications for patients with GBM. Finally, the most common adverse effects were nausea, vomiting, fatigue and hypertension. Conclusions: While the beneficial properties of this pharmacological therapy have been observed, its adverse effect profile requires constant evaluation, as it includes vascular, blood and symptomatic adverse effects, which must be analyzed on a case-by-case basis and with great attention, especially in the case of more serious complications such as thromboembolic events. Full article