L1 Expression Research Articles

Key Proteins in Rat Cerebral Cortex: Application of Cornu aspersum Extract as a Neuroprotective Agent in Alzheimer’s Type Dementia

Alzheimer’s disease (AD) is the most widespread neurodegenerative disorder. Recently, it was found that mucus extract from Cornu aspersum has beneficial effects on memory and cognitive processes in a rat scopolamine model of AD. The present study elucidated the mechanisms of action of standardized mucus snail extract (SE) enriched with a fraction above 20 kDa on Alzheimer-type dementia in rats. Using proteomic analysis on two-dimensional polyacrylamide gel electrophoresis (2D–PAGE) on rat cortex extracts, we compared protein expression in both groups: the first group was treated intraperitoneally with scopolamine (Sco, 2 mg/kg, 11 days) and the second (Sco + SE) group was treated intraperitoneally with Sco (Sco, 2 mg/kg) and protected by SE (0.5 mL/100 g bw) applied daily orally for 11 days. Brain cortex was separated and the expressions of various proteins related to memory and cognitive functions were identified. We found that the expression of Ubiquitin carboxyl-terminal hydrolase isozyme L1, Calbindin, Vacuolar ATP synthase catalytic subunit A, Tropomyosin beta chain, 14-3-3 zeta/delta, Kinesin-1 heavy chain, and Stathmin-4 significantly differs in SE-protected rats as compared to dement animals treated only by Sco, and these brain proteins might be potential therapeutic targets for Alzheimer’s-type dementia treatment.

Platinum‐Metformin Conjugates Acting as Promising PD‐L1 Inhibitors through the AMP‐Activated Protein Kinase Mediated Lysosomal Degradation Pathway

AbstractWith the development of metalloimmunology, the potential of platinum drugs in cancer immunotherapy has attracted extensive attention. Although immunochemotherapy combining PD‐1/PD−L1 antibodies with platinum drugs has achieved great success in the clinic, combination therapy commonly brings new problems. Herein, we have developed a platinum‐metformin conjugate as a promising alternative to antibody‐based PD−L1 inhibitors, not only disrupting PD‐1/PD−L1 axis on cell surface but also down‐regulating the total PD−L1 levels in non‐small cell lung cancer (NSCLC) cells comprehensively, thus achieving highly efficient immunochemotherapy by a single small molecule. Mechanism studies demonstrate that Pt‐metformin conjugate can selectively accumulate in lysosomes, promote lysosomal‐dependent PD−L1 degradation via the AMPK‐TFEB pathway, and modulate the upstream regulatory proteins related to PD−L1 expression (e.g. HIF‐1α and NF‐κB), eventually decreasing the total abundance of PD−L1 in NSCLC, overcoming tumor hypoxia, and activating anti‐tumor immunity in vivo. This work suggests an AMPK‐mediated lysosomal degradation pathway of PD−L1 for the first time and provides a unique design perspective for the development of novel platinum drugs for immunochemotherapy.

Multi-ancestry GWAS reveals loci linked to human variation in LINE-1- and Alu-copy numbers.

Long INterspersed Element-1 (LINE-1; L1) and Alu are two families of transposable elements (TEs) occupying ~17% and ~11% of the human genome, respectively. Though only a small fraction of L1 copies is able to produce the machinery to mobilize autonomously, Alu elements and degenerate L1 copies can hijack their functional machinery and mobilize in trans. The expression and subsequent copy number expansion of L1 and Alu can exert pathological effects on their hosts, promoting genome instability, inflammation, and cell cycle alterations. These features have made L1 and Alu promising focus subjects in studies of aging and aging diseases where they can become active. However, the mechanisms regulating variation in their expression and copy number remain incompletely characterized. Moreover, the relevance of known mechanisms to diverse human populations remains unclear, as mechanisms are often characterized in isogenic cell culture models. To address these gaps, we leveraged genomic data from the 1000 Genomes Project to carry out a trans-ethnic GWAS of L1 and Alu insertion global singletons. These singletons are rare insertions observed only once in a population, potentially reflecting recently acquired L1 and Alu integrants or structural variants, and which we used as proxies for L1/Alu-associated copy number variation. Our computational approach identified single nucleotide variants in genomic regions containing genes with potential and known TE regulatory properties, and it enriched for single nucleotide variants in regions containing known regulators of L1 expression. Moreover, we identified many reference TE copies and polymorphic structural variants that were associated with L1/Alu singletons, suggesting their potential contribution to TE copy number variation through transposition-dependent or transposition-independent mechanisms. Finally, a transcriptional analysis of lymphoblastoid cells highlighted potential cell cycle alterations in a subset of samples harboring L1/Alu singletons. Collectively, our results (i) suggest that known TE regulatory mechanisms may also play regulatory roles in diverse human populations, (ii) expand the list of genic and repetitive genomic loci implicated in TE copy number variation, and (iii) reinforce the links between TEs and disease.

Human cytomegalovirus harnesses host L1 retrotransposon for efficient replication

Genetic parasites, including viruses and transposons, exploit components from the host for their own replication. However, little is known about virus-transposon interactions within host cells. Here, we discover a strategy where human cytomegalovirus (HCMV) hijacks L1 retrotransposon encoded protein during its replication cycle. HCMV infection upregulates L1 expression by enhancing both the expression of L1-activating transcription factors, YY1 and RUNX3, and the chromatin accessibility of L1 promoter regions. Increased L1 expression, in turn, promotes HCMV replicative fitness. Affinity proteomics reveals UL44, HCMV DNA polymerase subunit, as the most abundant viral binding protein of the L1 ribonucleoprotein (RNP) complex. UL44 directly interacts with L1 ORF2p, inducing DNA damage responses in replicating HCMV compartments. While increased L1-induced mutagenesis is not observed in HCMV for genetic adaptation, the interplay between UL44 and ORF2p accelerates viral DNA replication by alleviating replication stress. Our findings shed light on how HCMV exploits host retrotransposons for enhanced viral fitness.

A dynamic WUSCHEL/Layer 1 interplay directs shoot apical meristem formation during regeneration in tobacco.

De novo shoot apical meristem (SAM) organogenesis during regeneration in tissue culture has been investigated for several decades, but the precise mechanisms governing early-stage cell fate specification remain elusive. In contrast to SAM establishment during embryogenesis, in vitro SAM formation occurs without positional cues and is characterized by autonomous initiation of cellular patterning. Here, we report on the initial stages of SAM organogenesis and on the molecular mechanisms that orchestrate gene patterning to establish SAM homeostasis. We found that SAM organogenesis in tobacco calli starts with protuberance formation followed by the formation of an intact L1 layer covering the nascent protuberance. We also exposed a complex interdependent relationship between L1 and WUS expression and revealed that any disruption in this interplay compromises shoot formation. Silencing WUS in nascent protuberances prevented L1 formation and caused the disorganization of the outer cell layers exhibiting both anticlinal and periclinal divisions, suggesting WUS plays a critical role in the proper establishment and organization of L1 during SAM organogenesis. We further discovered that silencing TONNEAU1 prevents the exclusive occurrence of anticlinal divisions in the outermost layer of the protuberances and suppresses the acquisition of L1 cellular identity and L1 formation, ultimately impeding SAM formation and regeneration. This study provides a novel molecular framework for the characterization of a WUS/L1 interplay that mediates SAM formation during regeneration.

Prevalence of HPV16 L1 protein in oral biopsies: A diagnostic study from Ecuador

This study was designed to investigate the expression of HPV16 L1-protein in biopsies of oral mucosa samples. The expression of HPV16 L1 protein was investigated in biopsies taken from oral mucosa from patients who required pathological diagnosis of oral lesions. Seventy-two samples were incubated with anti-L1 protein monoclonal antibodies and protein detection was revealed with diaminobenzidine. Expression of L1 protein was performed by a pathologist blinded for tissue diagnosis under light microscopy. Most of the lesions of oral mucosa were present in lining mucosa (75 %) and the most frequent lesion were mucocele (n = 17, 23.6 %), epithelial hyperplasia (n = 6, 8.33 %), fibroma (n = 5, 6.9 %) and inflammatory hyperplasia (n = 5, 6.9 %). L1 protein expression was observed only in five (6.9 %) samples (two squamous cell carcinomas, two epithelial hyperplasia, and one gingival hyperplasia). We concluded that L1 expression in oral biopsies presented a low frequency in oral mucosal biopsies samples.

A rare tumour – metastatic digital papillary adenocarcinoma: literature review, clinical case of successful therapy

Digital papillary adenocarcinoma (DPA ) is a rare malignant neoplasm of sweat glands, which was first described by Helwig in 1979 and then classified by Kao in 1987. This disease most often occurs in men aged 50–70 years and is characterized by a relatively favorable prognosis. In most cases, radical excision of the tumor leads to cure. However, 14–47 % of patients develop distant metastases with predominant lung involvement (70 %). The study of etiology and pathogenesis of this rare cancer and its molecular genetic profile seems to be interesting. Currently, there is no clear approach to the treatment of metastatic DPA , but sporadic cases of using chemotherapy have been reported. Aim of the study: to analyze current data on the pathogenesis of DPA , diagnostic features and treatment methods used, as well as to present the first clinical case of treatment of disseminated digital carcinoma with immune checkpoint inhibitors described in scientific literature. Material and Methods. A search of available literature published in Medline, Pubmed, etc. databases from 1984 to 2023 was performed, 21 sources were included in this review. Clinical Case Description. We present a rare case of metastatic digital papillary carcinoma in a 23-year-old male with disease manifestation at the age of 14 years. Lack of vigilance and awareness of oncologists and morphologists did not allow timely diagnosis of malignancy, even in case of 3 local recurrences of the disease. Only biopsy of a metastatic lung nodule with histological and IHC examination (of archival and new material) made it possible to make a correct diagnosis. This case revealed 2 potential targets that could be used for disease control: androgen receptor positive expression and PD -L1 expression with CPS =20. The use of immune response checkpoint inhibitors (ipilimumab + nivolumab) resulted in partial response followed by stable disease.

Subpopulation composition of PD-L1-positive lymphocytes in the primary tumour in luminal breast cancer patients

The relationship between the tumour and the microenvironment is of great interest because it may determine the efficacy of new agents aimed at targeting the anti-tumour immune response, such as immune checkpoint inhibitors (ICI s), which have been used to treat breast cancer. PD -L1 status in immune cells should be examined when prescribing ICI s for breast cancer. This highlights the importance of studying the characteristics of the tumour microenvironment, the main approach being to uncover its heterogeneity. The aim of this study was to investigate the subpopulation composition of PD -L1-positive lymphocytes in the tumour microenvironment, separately in each luminal subtype of BC, and to compare it according to the PD -L1 status of the tumour. Material and Methods. Fifty-two primary tumour samples were obtained from patients with invasive luminal A, luminal B HER2- and luminal B HER2+ subtypes of breast cancer (T1–2N0–1M0). No drug therapy was administered prior to surgery to any patient in this study. Cytotoxic lymphocytes (CTL s), B lymphocytes, T helper lymphocytes, T regulatory lymphocytes and their PD -L1 expression in tumour tissue samples were assessed by flow cytometry, and tumour PD -L1 status was determined by Ventana SP 142 immunohistochemistry. Results. All of the key lymphocyte populations we identified were present in almost all patients. The number of PD -L1-positive Th2 lymphocytes was significantly higher in the luminal A and luminal B HER2- BC samples compared to the luminal B HER2+ cases (р=0.0240 and p=0.0092, respectively). When the proportion of PD -L1-positive cells was calculated, the proportion of PD -L1-positive Th2 lymphocytes and T regulatory lymphocytes was significantly lower in luminal B HER2-compared to luminal A BC. Cytotoxic lymphocytes, Th2 lymphocytes and T-regulatory lymphocytes represented the predominant PD -L1-positive immune cells in the breast cancer microenvironment and were present in higher numbers in PD -L1-positive luminal B HER2-. Conclusions. Different lymphocyte populations, including those expressing PD -L1, can be found in the breast cancer microenvironment and there are differences in their numbers between different luminal breast cancers. This may explain the discordant prognostic and predictive value of the microenvironment in luminal breast cancer when considered as a single molecular subtype.

Mapping of long interspersed element-1 (L1) insertions by TIPseq provides information about sub chromosomal genetic variation in human embryos.

Retrotransposons play important roles during early development when they are transiently de-repressed during epigenetic reprogramming. Long interspersed element-1 (L1), the only autonomous retrotransposon in humans, comprises 17% of the human genome. We applied the Single Cell Transposon Insertion Profiling by Sequencing (scTIPseq) to characterize and map L1 insertions in human embryos. Sixteen cryopreserved, genetically tested, human blastocysts, were accessed from consenting couples undergoing IVF at NYU Langone Fertility Center. Additionally, four trios (father, mother, and embryos) were also evaluated. scTIPseq was applied to map L1 insertions in all samples, using L1 locations reported in the 1000 Genomes as controls. Twenty-nine unknown and unique insertions were observed in the sixteen embryos. Most were intergenic; no insertions were located in exons or immediately upstream of genes. The location or number of unknown insertions did not differ between euploid and aneuploid embryos, suggesting they are not merely markers of aneuploidy. Rather, scTIPseq provides novel information about sub-chromosomal structural variation in human embryos. Trio analyses showed a parental origin of all L1 insertions in embryos. Several studies have measured L1 expression at different stages of development in mice, but this study for the first time reports unknown insertions in human embryos that were inherited from one parent, confirming no de novo L1 insertions occurred in parental germline or during embryogenesis. Since one-third of euploid embryo transfers fail, future studies would be useful for understanding whether these sub-chromosomal genetic variants or de novo L1 insertions affect embryo developmental potential.

LINE-1 transcription activates long-range gene expression.

Long interspersed nuclear element-1 (LINE-1 or L1) is a retrotransposon group that constitutes 17% of the human genome and shows variable expression across cell types. However, the control of L1 expression and its function in gene regulation are incompletely understood. Here we show that L1 transcription activates long-range gene expression. Genome-wide CRISPR-Cas9 screening using a reporter driven by the L1 5' UTR in human cells identifies functionally diverse genes affecting L1 expression. Unexpectedly, altering L1 expression by knockout of regulatory genes impacts distant gene expression. L1s can physically contact their distal target genes, with these interactions becoming stronger upon L1 activation and weaker when L1 is silenced. Remarkably, L1s contact and activate genes essential for zygotic genome activation (ZGA), and L1 knockdown impairs ZGA, leading to developmental arrest in mouse embryos. These results characterize the regulation and function of L1 in long-range gene activation and reveal its importance in mammalian ZGA.

Evaluation of tumor immune microenvironment for PD-L1 score and tumor infiltrating lymphocytes in high grade osteosarcomas and their correlation with disease progression.

e23510 Background: Tumor Immune Micro-environment is being increasingly recognised as a potential target for improving overall survival for osteosarcomas, especially in the metastatic setting. Our study purpose was to evaluate the PD- L1 (Programmed cell Death- Ligand 1) expression in neoplastic cells well as Tumor Infiltrating Lymphocyte (TIL) density of osteosarcoma specimens and correlate it with oncological outcomes. Materials & Methods: A prospective cohort study was conducted between March 2017 and March 2022 among osteosarcoma patients who underwent primary biopsy and neo-adjuvant chemotherapy followed by surgical excision at our centre. We excluded patients who had alternative diagnoses such as low grade osteosarcoma, secondary osteosarcoma, recurrent osteosarcoma as well as patients who had undergone initial treatment (chemotherapy/ surgery) outside our institute. De-paraffinized sections (4μ) incubated with primary antibody (PDL1) and a universal secondary detection kit used. Average percentage of positive cells calculated from at least 10 representative fields at 400X magnification. Positive staining was considered when ≥1% cells showed positivity. IHC scoring of PD-L1 was graded as negative, low positive and high positive. We calculated the number of TILs under 400X magnification in ten fields and then took their average. TILs staining was scored semi quantitatively using a 3 tiered scale. Results: Forty patients who fulfilled the inclusion & exclusion criteria were included in the study with most common age group being 10 to 19 years (27 patient, 68%). The male: female ratio was 1.6: 1 and the most common location of tumor was distal femur. Majority of patients had the histological subtype of conventional osteosarcoma (37 patients, 92.5%). Lung metastasis was present at time of initial diagnosis in 27 patients (67.5%). At the end of 2 years, 27 patients were alive (60%) while 13 patients had died due to disease. PD-L1 expression was negative in 17.5%, low positive in 15% and high positive in 67.5%. Among TIL category, 19 patients belonged to category 1, 10 belonged to category 2 & 11 belonged to category 3. There was significant correlation between PD-L1 expression score & TIL category. PD-L1 score did not correlate with percentage of necrosis following chemotherapy, metastasis on presentation or overall survival. Conclusions: PD-L1 score had significant correlation with density of Tumor Infiltrating lymphocytes (TIL). However, PD-L1 score did not correlate with overall survival, tumor-free survival, progression of metastasis or local recurrence.

Next-generation sequencing in patients with lung cancer undergoing immunotherapy: Retrospective analysis.

e15071 Background: Identifying targetable oncogenic drivers and resistance mechanisms by Next-generation sequencing (NGS) is critical in Non-Small Cell Lung Cancer (NSCLC). Methods: We conducted a retrospective study at the University of Vermont Center to assess the utilization of NGS in NSCLC. We examined the medical records of NSCLC patients who received Immune Checkpoint Inhibitors (ICIs) as a first-line therapy between January 2017 and June 2022. We collected demographic data, including age, sex, ethnicity, cancer stage, NGS, mutations and survival data. Survival analysis was performed for the most common mutation by measuring the Hazard Ratio (HR) via Cox regression of different mutations compared to the whole cohort. Results: We identified 95 NSCLC patients with 52.6% males, 94.7% whites and a mean age of 63.4 years (Standard Deviation (SD): 11.34). 67.4 % received Pembrolizumab and 30.5% got Durvalumab. Most patients had stage 4 and stage 3 cancers, with 54.7% and 35.8%, respectively. Mean ECOG of 0.9 (SD: 0.7), 34% had average body mass index, and overall mortality was 41%. PD L1 expression and NGS were reported in 81% of cases. NGS was reported in 88.5% of stage 4 and 76.5% of stage 3 categories. 41.8% had a type of KRAS mutation, with KRAS p.G12C being the most common. 24.1% of cases had no mutation. The mean survival months ranged from 7.6 months in MET to 52.4 months in RET mutation. Survival analysis showed decreased mortality in EGFR mutation, as seen in Table. Conclusions: The rate of NGS testing at our rural academic center in Vermont is on the higher side of the national average NGS testing, but the turnaround time (TAT) of 28 days is suboptimal compared to NCI centers. Strategies to reduce TAT need to be implemented to get timely essential for tailoring therapies in patients with NSCLC. Further research is needed to explore the prognostic utility of mutations in NSCLC patients undergoing ICIs. [Table: see text]

Pan-cancer experimental characteristic of human transcriptional patterns connected with telomerase reverse transcriptase (TERT) gene expression status.

The TERT gene encodes the reverse transcriptase subunit of telomerase and is normally transcriptionally suppressed in differentiated human cells but reactivated in cancers where its expression is frequently associated with poor survival prognosis. Here we experimentally assessed the RNA sequencing expression patterns associated with TERT transcription in 1039 human cancer samples of 27 tumor types. We observed a bimodal distribution of TERT expression where ∼27% of cancer samples did not express TERT and the rest showed a bell-shaped distribution. Expression of TERT strongly correlated with 1443 human genes including 103 encoding transcriptional factor proteins. Comparison of TERT- positive and negative cancers showed the differential activation of 496 genes and 1975 molecular pathways. Therein, 32/38 (84%) of DNA repair pathways were hyperactivated in TERT+ cancers which was also connected with accelerated replication, transcription, translation, and cell cycle progression. In contrast, the level of 40 positive cell cycle regulator proteins and a set of epithelial-to-mesenchymal transition pathways was specific for the TERT- group suggesting different proliferation strategies for both groups of cancer. Our pilot study showed that the TERT+ group had ∼13% of cancers with C228T or C250T mutated TERT promoter. However, the presence of promoter mutations was not associated with greater TERT expression compared with other TERT+ cancers, suggesting parallel mechanisms of its transcriptional activation in cancers. In addition, we detected a decreased expression of L1 retrotransposons in the TERT+ group, and further decreased L1 expression in promoter mutated TERT+ cancers. TERT expression was correlated with 17 genes encoding molecular targets of cancer therapeutics and may relate to differential survival patterns of TERT- positive and negative cancers.

Collagen synthase P4HA3 as a novel biomarker for colorectal cancer correlates with prognosis and immune infiltration

ObjectiveIn this study, we aimed to determine whether proly4-hydroxylase-III (P4HA3) could be used as a biomarker for the diagnosis of colorectal cancer (CRC) as well as for determining prognosis. MethodsWe used The Cancer Genome Atlas (TCGA) database to analyze P4HA3 expression in CRC and further investigated the association between P4HA3 and clinicopathological parameters, immune infiltration, and prognosis of patients with CRC. Enrichment analysis was conducted to investigate the potential biological role of P4HA3 in CRC. To verify the results of TCGA analysis, we performed immunohistochemical staining of 180 clinical CRC tissue samples to probe into the relationship of P4HA3 expression with lymphocyte infiltration and immune checkpoints expression. ResultsThe expression of P4HA3 was significantly higher in CRC tissues and associated with a higher degree of malignancy and poorer prognosis in CRC. The results of enrichment analysis indicated that P4HA3 may be associated with the epithelial-mesenchymal transition process and the immune response. Immunohistochemical staining results showed that high P4HA3 expression was associated with high infiltration levels of CD8+ and Foxp3+ TILs and high PD-1/PD- L1 expression. Lastly, patients with CRC co-expressing P4HA3 and PD-1 had a significantly worse prognosis. ConclusionHigh expression of P4HA3 is associated with adverse clinical features and immune cell infiltration in CRC, and has the potential to serve as a biomarker for predicting CRC prognosis.

Comprehensive profiling of L1 retrotransposons in mouse.

L1 elements are retrotransposons currently active in mammals. Although L1s are typically silenced in most normal tissues, elevated L1 expression is associated with a variety of conditions, including cancer, aging, infertility and neurological disease. These associations have raised interest in the mapping of human endogenous de novo L1 insertions, and a variety of methods have been developed for this purpose. Adapting these methods to mouse genomes would allow us to monitor endogenous in vivo L1 activity in controlled, experimental conditions using mouse disease models. Here, we use a modified version of transposon insertion profiling, called nanoTIPseq, to selectively enrich young mouse L1s. By linking this amplification step with nanopore sequencing, we identified>95% annotated L1s from C57BL/6 genomic DNA using only 200000 sequencing reads. In the process, we discovered 82 unannotated L1 insertions from a single C57BL/6 genome. Most of these unannotated L1s were near repetitive sequence and were not found with short-read TIPseq. We used nanoTIPseq on individual mouse breast cancer cells and were able to identify the annotated and unannotated L1s, as well as new insertions specific to individual cells, providing proof of principle for using nanoTIPseq to interrogate retrotransposition activity at the single-cell level in vivo.

Improved LINE-1 Detection through Pattern Matching by Increasing Probe Length.

Long Interspersed Element-1 (LINE-1 or L1) is an autonomous transposable element that accounts for 17% of the human genome. Strong correlations between abnormal L1 expression and diseases, particularly cancer, have been documented by numerous studies. L1PD (LINE-1 Pattern Detection) had been previously created to detect L1s by using a fixed pre-determined set of 50-mer probes and a pattern-matching algorithm. L1PD uses a novel seed-and-pattern-match strategy as opposed to the well-known seed-and-extend strategy employed by other tools. This study discusses an improved version of L1PD that shows how increasing the size of the k-mer probes from 50 to 75 or to 100 yields better results, as evidenced by experiments showing higher precision and recall when compared to the 50-mers. The probe-generation process was updated and the corresponding software is now shared so that users may generate probes for other reference genomes (with certain limitations). Additionally, L1PD was applied to other non-human genomes, such as dogs, horses, and cows, to further validate the pattern-matching strategy. The improved version of L1PD proves to be an efficient and promising approach for L1 detection.

Identification of CNKSR1 as a biomarker for “cold” tumor microenvironment in lung adenocarcinoma: An integrative analysis based on a novel workflow

BackgroundTherapies targeting PD1/PD-L1 pathway have revolutionized the treatment of lung cancer. However, anti-PD1/PD-L1 therapies have proven beneficial for only a select group of lung adenocarcinoma (LUAD) patients and generally do not work for immuno-cold tumors characterized by a lack of immune cell infiltration. Identifying novel biomarkers is vital to broad therapeutic options for LUAD patients with no response to anti-PD1/PD-L1 immunotherapies. MethodsOur study has developed a novel strategy to identify a promising biomarker that addresses the limitations of anti-PD1/PD-L1 immunotherapy in treating immunological cold tumors. We exacted LUAD RNA-seq data from the Cancer Genome Atlas database (TCGA). Using several machine learning methods, we identified the candidate biomarker. Based on the expression level of PD-L1 and the identified biomarker, samples were categorized into four groups. We further used ESTIMATE, ssGSEA, and CIBERSORT algorithms to calculate the immune infiltration level of each group. The results were validated in three independent bulk datasets and one scRNA-seq dataset. Immunohistochemistry (IHC) assessments were performed in clinical samples to further evaluate the coexpression of CNKSR1 and PD-L1, and to compare CD8 + T cell infiltration among groups. ResultsAfter comprehensive analyses, CNKSR1 was identified as a novel promising biomarker for immuno-cold LUAD. CNKSR1 mRNA expression levels exhibited a negative correlation with both PD-L1 mRNA expression and the extent of immune cell infiltration in LUAD. Besides, in contrast to the significant association between the expression of PD-L1 and the majority of other well-established or widely studied immune checkpoint molecules, a mutually exclusive expression pattern is observed between CNKSR1 and these molecules. The aforementioned results were consistent in validation datasets. The prognostic model built based on the CNKSR1 coexpression module also showed robust predictive performance. Additionally, IHC assessments have confirmed that the coexpression of CNKSR1 and PD-L1 is rare in LUAD samples. Notably, LUADs in the high-CNKSR1 group, characterized by high CNKSR1 but low PD- L1 expression, demonstrated reduced infiltration of CD8+ T cells. ConclusionsIn summary, CNKSR1 emerges as a promising biomarker for immune-cold LUADs, and the study into CNKSR1 modulating T-cell infiltration may lead to the identification of compensatory molecules to enhance the effectiveness of current immunotherapy for LUAD.

Locus-specific LINE-1 expression in clinical ovarian cancer specimens at the single-cell level

Long interspersed nuclear elements (LINE-1s/L1s) are a group of retrotransposons that can copy themselves within a genome. In humans, it is the most successful transposon in nucleotide content. L1 expression is generally mild in normal human tissues, but the activity has been shown to increase significantly in many cancers. Few studies have examined L1 expression at single-cell resolution, thus it is undetermined whether L1 reactivation occurs solely in malignant cells within tumors. One of the cancer types with frequent L1 activity is high-grade serous ovarian carcinoma (HGSOC). Here, we identified locus-specific L1 expression with 3′ single-cell RNA sequencing in pre- and post-chemotherapy HGSOC sample pairs from 11 patients, and in fallopian tube samples from five healthy women. Although L1 expression quantification with the chosen technique was challenging due to the repetitive nature of the element, we found evidence of L1 expression primarily in cancer cells, but also in other cell types, e.g. cancer-associated fibroblasts. The expression levels were similar in samples taken before and after neoadjuvant chemotherapy, indicating that L1 transcriptional activity was unaffected by clinical platinum-taxane treatment. Furthermore, L1 activity was negatively associated with the expression of MYC target genes, a finding that supports earlier literature of MYC being an L1 suppressor.

Locus-level L1 DNA methylation profiling reveals the epigenetic and transcriptional interplay between L1s and their integration sites

Long interspersed element 1 (L1) retrotransposons are implicated in human disease and evolution. Their global activity is repressed by DNA methylation, but deciphering the regulation of individual copies has been challenging. Here, we combine short- and long-read sequencing to unveil L1 methylation heterogeneity across cell types, families, and individual loci and elucidate key principles involved. We find that the youngest primate L1 families are specifically hypomethylated in pluripotent stem cells and the placenta but not in most tumors. Locally, intronic L1 methylation is intimately associated with gene transcription. Conversely, the L1 methylation state can propagate to the proximal region up to 300bp. This phenomenon is accompanied by the binding of specific transcription factors, which drive the expression of L1 and chimeric transcripts. Finally, L1 hypomethylation alone is typically insufficient to trigger L1 expression due to redundant silencing pathways. Our results illuminate the epigenetic and transcriptional interplay between retrotransposons and their host genome.

Large Deletions, Cleavage of the Telomeric Repeat Sequence, and Reverse Transcriptase-Mediated DNA Damage Response Associated with Long Interspersed Element-1 ORF2p Enzymatic Activities.

L1 elements can cause DNA damage and genomic variation via retrotransposition and the generation of endonuclease-dependent DNA breaks. These processes require L1 ORF2p protein that contains an endonuclease domain, which cuts genomic DNA, and a reverse transcriptase domain, which synthesizes cDNA. The complete impact of L1 enzymatic activities on genome stability and cellular function remains understudied, and the spectrum of L1-induced mutations, other than L1 insertions, is mostly unknown. Using an inducible system, we demonstrate that an ORF2p containing functional reverse transcriptase is sufficient to elicit DNA damage response even in the absence of the functional endonuclease. Using a TK/Neo reporter system that captures misrepaired DNA breaks, we demonstrate that L1 expression results in large genomic deletions that lack any signatures of L1 involvement. Using an in vitro cleavage assay, we demonstrate that L1 endonuclease efficiently cuts telomeric repeat sequences. These findings support that L1 could be an unrecognized source of disease-promoting genomic deletions, telomere dysfunction, and an underappreciated source of chronic RT-mediated DNA damage response in mammalian cells. Our findings expand the spectrum of biological processes that can be triggered by functional and nonfunctional L1s, which have impactful evolutionary- and health-relevant consequences.