Chromosome 22q11 Research Articles

Classification and Prognostic Stratification Based on Genomic Features in Myelodysplastic and Myeloproliferative Neoplasm- and Their Overlapping Conditions

Background/Objectives: Myeloid neoplasms encompass a diverse group of disorders. In this study, we aimed to analyze the clinical and genomic data of patients with myeloproliferative neoplasm (MPN), myelodysplastic neoplasm (MDS), and their overlapping conditions, such as MDS/MPN and aplastic anemia (AA), to help redefine the disease classification. Methods: Clinico-genomic data of 1585 patients diagnosed with MPN (n = 715), MDS (n = 698), MDS/MPN (n = 78), and AA (n = 94) were collected. Patterns of 53 recurrent genomic abnormalities were compartmentalized into 10 groups using a Dirichlet process (DP). Results: These genomic groups were correlated with specific genomic features, survival outcomes, and disease subtypes. Groups DP1 and DP5, characterized by JAK2 and CALR mutations, respectively, showed very favorable prognoses among the patients with MPN. Groups DP2, DP7, and DP9 demonstrated very adverse prognoses across the disease subtypes. DP2 included patients with MDS harboring TP53 mutations and complex karyotypes; DP9 comprised patients with acute myeloid leukemia-related mutations, including NPM1; and DP7 included patients with SETBP1 mutations. Groups DP10 and DP8, linked to SF3B1 and DDX41 mutations or chromosome 1q derivatives, presented a favorable risk profile. Improved survival was observed with transplantation in groups DP2, DP7, and DP9. Conclusions: These findings highlight the role of genomic classifications in guiding personalized treatment strategies, ultimately enhancing the understanding and management of myeloid neoplasms.

Chromosome 1 Alterations in Multiple Myeloma: Considerations for Precision Therapy.

Multiple myeloma (MM) is an incurable blood malignancy characterized by the clonal expansion of plasma cells and the secretion of monoclonal immunoglobulins. High-risk MM, defined by specific cytogenetic abnormalities, poses significant therapeutic challenges and is associated with inferior survival outcomes compared to standard-risk disease. Although molecularly targeted therapies have shown efficacy in other hematologic malignancies, currently venetoclax is the only targeted therapy approved for MM (t(11;14)). However, chromosome 1q gains, amplifications, and 1p deletions are frequently observed in MM, and have been linked to drug resistance and poor patient prognosis. Accordingly, this review focuses on emerging MM precision therapies capable of targeting dysregulated genes within these regions. It addresses gene therapies, small molecule inhibitors and monoclonal antibodies currently under investigation to antagonize oncogenic drivers including MCL-1, BCL9, F11R, and CKS1B, all of which are implicated in cell survival, proliferation or drug resistance. In conclusion, the link between chromosome 1 abnormalities and high-risk disease in MM patients offers a compelling rationale to identify and explore therapeutic targeting of chromosome 1 gene products as a novel precision medicine approach for a poorly served patient population.

Genetic complexity in myelodysplastic syndromes: Insights from a case with complex karyotype and renal manifestations

Myelodysplastic syndrome (MDS) is a heterogeneous disorder with a significant risk of progression to acute myeloid leukemia. We present a case initially suspected of acute leukemia, subjected to comprehensive cytogenetic, immunophenotypic, and molecular evaluations. Cytogenetic analysis revealed a complex karyotype including translocation t (1;3) (q42;q21), near-tetraploidy, and deletions on chromosomes 5q and 20q. Fluorescence in situ hybridization confirmed the 5q and 20q deletions, along with trisomy 8. Immunophenotyping identified 7.5% abnormal myeloid blasts. Next-generation sequencing detected pathogenic TP53 mutations: c.569 (p.Pro190LeufsTer57) and c.464C>A (p.Thr155Asn). In addition, renal imaging showed mildly raised echotexture. This case underscores the value of integrated multimodal analysis for precise diagnosis and management of MDS, offering insights into its complex genetic landscape.

Abstract B021: Aneuploidy-associated cohesin RAD21 gains promote immune evasion in prostate cancers

Abstract Aneuploidy, characterized by imbalanced chromosome numbers, is a hallmark of cancer and is strongly correlated with lethal progression in prostate cancer. Our recent work identified that gains of chromosome 8q, the most frequently gained chromosome in aneuploidy prostate cancers, drive cancer progression, partially through the cohesin RAD21 gene located on the chr8q24 region. We demonstrated that increased RAD21 expression accelerates lethal progression and oncogenesis in both prostate cancer and Ewing sarcoma by alleviating oncogenic stress during early-stage oncogenesis in both cell line and organoid models. Therefore, we hypothesize that elevated RAD21 levels could enable cancer cells to evade immune surveillance by mitigating oncogenic stress and DNA damage. In this study, we developed isogenic prostate and breast cancer cell culture models with varying levels of RAD21. Using a natural killer (NK) cell co-culture assay, we observed that cells with elevated RAD21 expression were significantly less susceptible to NK-mediated cytotoxicity and exhibited increased survivorship when co-cultured with NK cells. These findings align with publicly available data showing that tumors with high RAD21 levels have reduced NK cell infiltration in prostate cancer. Our results suggest that increased RAD21 expression, commonly associated with chr8q gains, facilitates immune evasion in cancer cells, thereby promoting early-stage oncogenesis. Understanding the role of RAD21 in immune evasion could reveal novel therapeutic strategies targeting immune surveillance mechanisms in prostate cancer. Citation Format: Elise G. DeArment, Ruoxi W. Wang, Kate Lu, Xiaofeng A. Su, Andrew Elliott, Nicholas A. Zorko, Justin H. Hwang, Xiaofeng A. Su. Aneuploidy-associated cohesin RAD21 gains promote immune evasion in prostate cancers [abstract]. In: Proceedings of the AACR Special Conference in Cancer Research: Tumor-body Interactions: The Roles of Micro- and Macroenvironment in Cancer; 2024 Nov 17-20; Boston, MA. Philadelphia (PA): AACR; Cancer Res 2024;84(22_Suppl):Abstract nr B021.

Extra-Axial Poorly Differentiated Chordoma Initially Misdiagnosed as Epithelioid Sarcoma.

Poorly differentiated chordoma is an exceedingly rare, aggressive subtype of chordoma. These tumors typically arise in the axial skeleton of young patients, most commonly the skull base, followed by the cervical spine. Herein, we present a 60-year-old patient with longstanding knee pain and nondiagnostic imaging, initially thought to be due to osteoarthritis. No discrete mass-forming lesion was identified by radiology. Synovial histology at the time of arthroplasty revealed a multinodular proliferation of epithelioid-to-histiocytoid cells with a moderate amount of eosinophilic-to-clear, vacuolated cytoplasm. Scattered cells with high-grade nuclear atypia were present. A diagnosis of metastatic carcinoma was considered due to immunohistochemical positivity for keratin and GATA3. However, a diagnosis of epithelioid sarcoma was rendered based on clinical context, morphology, and loss of immunohistochemical expression for SMARCB1 (INI1). However, upon re-review of the tumor, brachyury was retrospectively added to the immunohistochemistry panel and showed strong positivity, thus prompting amendment of the initial diagnosis of epithelioid sarcoma to extra-axial poorly differentiated chordoma. Given the rarity of this diagnosis, molecular testing was performed which revealed a unique SMARCB1 molecular profile with a single-nucleotide variant in addition to the commonly reported loss of chromosome 22q. This report of an ultra-rare sarcoma in an uncommon anatomic site highlights multiple potential pitfalls in the diagnosis of poorly differentiated chordoma, emphasizes the importance of brachyury immunohistochemistry in rendering a correct interpretation, and underscores an opportunity for further molecular analysis to better define the molecular profile of this entity.

EPCO-54. MULTIOMIC ANALYSIS OF SPINAL EPENDYMOMAS REVEALS MECHANISMS OF TUMOR AGGRESSIVENESS WITH MYCN AMPLIFICATION

Abstract Grade-3 spinal ependymomas, particularly those harboring MYCN amplification, have dismal prognoses despite optimal treatment regimens. MYCN functions as a transcription factor (TF) to drive the expression of key tumor driver genes. Our aim is to identify mechanisms underlying tumor aggressiveness and treatment resistance in MYCN-amplified ependymomas. MYCN amplification in spinal ependymomas was identified with custom next generation sequencing panels and bulk methylation analysis. We then conducted paired single-nucleus RNA (snRNA-seq) and chromatin accessibility (snATAC-seq) sequencing of grade-2 (n=2, 1 patient) and grade-3 spinal ependymomas (n=6, 6 patients, 4 MYCN-amplified). Comparator snRNA-seq datasets (grade-2/grade-3; 8/2) were included from a publicly available dataset (GSE163686; all non-MYCN-amplified). Canonical cell classes were identified with a combination of cluster- and cell-based strategies. Downstream analysis was conducted using R 4.3 (Seurat, Signac, clusterProfiler, CellChat), and Python 3.11 (scanpy) packages. We identified ependymoma tumor cells distinct from canonical immune cell classes with gene expression analysis and confirmed a distinct copy-number-variation pattern in these cells with chromosome 1 and 2p gain, and chromosome 6p and 22q loss. MYCN-amplified tumor cells (compared to non-MYCN-amplified grade2/3 tumor cells) showed increased differential accessibility at genes including VEGFA. Increased MYCN TF activity was confirmed with gene overexpression of downstream targets including NOTCH3, CREB5, PLK1, and VEGFA. Other genes that were highly accessible and overexpressed in MYCN-amplified tumor cells were related to oxidative stress, differentiation, and anti-apoptotic pathways. MYCN-amplified tumor cells modified the tumor microenvironment with increased VISTA signaling between MYCN-amplified tumor cells and tumor-associated macrophages, creating an immunosuppressive environment. We confirmed these effects by observing a higher proportion of M2-like macrophages in MYCN-amplified tumors (29.6% vs 18.2%). In conclusion, MYCN amplification in spinal ependymomas upregulates tumor cell proliferation, angiogenesis, and M2-like macrophage recruitment/programming.

BIOM-60. UNDERSTANDING THE INTERSECTION OF RACE, SEX, AND GENOMIC PROFILES IN MENINGIOMA PATHOPHYSIOLOGY

Abstract BACKGROUND While meningioma incidence and outcomes vary by sex and race, the potential underlying molecular differences possibly contributing to these disparities are less understood. Herein, we explore the clinical and genomic characteristics of meningiomas across groups characterized by age and sex. METHODS We analyzed adult patients with primary meningiomas resected from 2012 to 2023. Patients underwent whole exome sequencing, and demographic data were categorized into four groups based on self-reported race and sex, which included White females, White Males, Black females, and Black males. The primary analyses involved comparisons of tumor characteristics, socioeconomic status (median zip code income, % with high school diploma, health insurance status, distance from hospital), genomics, and recurrence rates. RESULTS The study included 509 primary meningiomas. White females exhibited low-risk genomic profiles characterized by driver mutations in KLF4 (+/- TRAF7) (p=0.010) and POLR2A (p=0.045), with no associated CNVs (p=0.410). This benign molecular profile correlated with lower WHO grades (p=0.013) and a lower incidence of recurrence (p=0.0003). Black females had meningiomas enriched with Hedgehog pathway mutations (p=0.0035) and a predilection for the anterior skull base (p=0.034), leading to an increased risk of recurrence (p=0.026). White males showed an aggressive genomic profile, including chromosome 1p loss (p=0.025) and 10q loss (p=0.067), associated with a high risk of recurrence (p=0.0002). Black males had meningiomas with chromosome 14q loss (p=0.0002), the highest incidence of high-grade meningiomas (p=0.048), and a 4.5-fold increased risk of recurrence (OR 4.5 [1.6-11.8]; p=0.006). Black males also experienced the worst progression-free survival (HR 5.5 [2.5-12.4]; p<0.0001), independent of WHO grade, extent of resection, and socioeconomic status. CONCLUSIONS Each demographic has a distinct molecular profile that correlates with clinical behavior in a race and sex-specific manner. Black males are disproportionately affected by biologically aggressive meningiomas, leading to higher tumor grade and recurrence rates.

PATH-64. UNDERSTANDING MECHANISTIC UNDERPINNINGS OF MOLECULAR SUBGROUPS OF MENINGIOMA

Abstract Meningiomas are the most common intracranial tumors. In the past, they were thought to be indolent and could be treated by resection. The current standard of care utilizes WHO histopathological grading to identify malignant potential. Our lab identified three molecular groups (MenG A, B, and C) using CNVs, methylation, and/or expression profiling with different biological characteristics. These groups were independently validated and predicted recurrence more reliably than WHO grade. MenG A is genomically stable but harbors tumors with point mutations, mainly in TRAF7, KLF4, and AKT1. On the other hand, MenG B and C tumors have chromosome 22q arm deletion or loss of merlin, the protein product of the NF2 gene. Moreover, MenG B is characterized by DNA hypomethylation, while MenG C tumors show DNA hypermethylation and have additional chromosomal losses, most notably in chromosome 1p. Lastly, while MenG A/B are indolent, MenG C – comprising approximately 28% of meningiomas – recur frequently and are refractory to radiotherapy and/or surgery. How can two groups of tumors with the same driver mutation behave so differently? Hence, our lab is interested in (1) what molecular pathway/factor(s) are necessary for becoming any meningioma, and (2) what mechanisms are critical for the aggressiveness of MenG C. Here, we investigate the role of TRAF7 in meningioma biology. Toward this end, we study interactors, modulators, and individual mutations in cell culture. In addition, we use published exome sequencing and expression data to reveal possible connections between chromatin state and individual genes. In conclusion, a variety of underlying mechanisms drive meningioma tumorigenicity and aggressiveness. Elucidating these mechanisms could provide future therapeutic targets for currently untreatable meningiomas.

Impact of Additional Chromosome 1q Copies on Multiple Myeloma Survival Outcomes

Impact of Additional Chromosome 1q Copies on Multiple Myeloma Survival Outcomes

Misdiagnosed for 14 Years: Adenosine Deaminase 2 (ADA2) Deficiency in a Teen Mimicking Polyarteritis Nodosa

ABSTRACTThe deficiency of adenosine deaminase 2 (DADA2) is an autosomal recessive disorder caused by loss of function mutations in the ADA2 gene (previously the CECR1 gene) on chromosome 22q11. The clinical spectrum of the disease is remarkably broad, and its presentations mimic features of polyarteritis nodosa, such as livedoid rash, hematological abnormalities (e.g., cytopenia), early‐onset stroke, hypogammaglobulinemia, and systemic inflammation. Early diagnosis and treatment of DADA2 are crucial, as the clinical features could be potentially life‐threatening but treatable. In this study, a 17‐year‐old male patient is reported with DADA2 whose symptoms mimic those of polyarteritis nodosa. A 17‐year‐old male patient presented with a 14‐year history of abdominal pain, hypertension, and cutaneous lesions initially attributed to polyarteritis nodosa (PAN). He was referred to our center due to ongoing abdominal pain. An abdominal and pelvic computed tomography scan with contrast revealed a retroperitoneal hemorrhage compressing the left kidney. Given his history of abdominal pain, hypertension, hemiparesis, transient ischemic attacks (TIA), anemia, cutaneous lesions, and retroperitoneal hemorrhage, DADA2 was suspected, and a genetic test confirmed the diagnosis. Treatment with anti‐TNF (Adalimumab) was initiated, resulting in noticeable improvement. In the follow up, fever, abdominal pain and TIA episodes were subsided and now he has a good clinical condition. Considering DADA2 and conducting a broad screening for other manifestations is recommended for patients presenting with PAN‐like symptoms. These patients may become symptomatic later in life, and early diagnosis allows for the consideration of disease‐specific treatment options.

DNA methylation dysregulation patterns in the 1p36 region instability.

In the monosomy 1p36 deletion syndrome, the role of DNA methylation in the genomic stability of the 1p36 region remains elusive. We hypothesize that changes in the methylation pattern at the 1p36 breakpoint hotspot region influenced the chromosomal breakage leading to terminal deletions. From the monosomy 1p36 material collection, four cases with 4.0 to 5.5Mb terminal deletions and their parents were investigated. DNA samples were assessed by targeted bisulfite sequencing (NimbleGen SeqCap Epi) to examine DNA methylation status in the 1p36 hotspot region at single-base resolution as compared to the chromosomal hotspot regions, 9p22, 18q21.1, and 22q11.2. Additionally, in in silico assessment, the mean GC content of various classes of repeats in the genome and especially in the breakpoint regions was evaluated. A complex landscape of DNA methylation in the 1p36 breakpoint hotspot region was found. Changes in DNA methylation level in the vicinity of the breakpoint in the child's DNA when compared to parents' and control DNA were observed, with a shift from 15.1 to 70.8% spanning the breakpoint region. In the main classes of evaluated repeats, higher mean GC contents in the 1p36 breakpoint region (47.06%), 22q11.2 (48.47%), and 18q21.1 (44.21%) were found, compared to the rest of the genome (40.78%). The 9p22 region showed a lower GC content (39.42%) compared to the rest of the genome. Both dysregulation of DNA methylation and high GC content were found to be specific for the 1p36 breakpoint hotspot region suggesting that methylation abnormalities could contribute to aberrations at 1p36.

Impact of bortezomib on 1q21+ in multiple myeloma: A meta-analysis of treatment outcomes and prognostic implications.

The gain of chromosomal region 1q21 is a significant risk factor in multiple myeloma (MM) and is associated with poor prognosis. The introduction of bortezomib has notably improved outcomes for patients with MM. However, recent studies have reported conflicting results regarding the efficacy of bortezomib in mitigating the adverse effects of 1q21 aberration in these patients. To address this, in the present study, a meta-analysis was conducted based on 6 studies encompassing 1,575 patients with MM. The prognosis of patients with 1q21+ who underwent treatment with a bortezomib-based regimen was evaluated in terms of complete response (CR), overall survival (OS) and progression-free survival (PFS) rates. The results demonstrated that patients with 1q21 aberration were more likely to achieve CR than those without 1q21+ under bortezomib-based treatment [odds ratio, 0.64; 95% confidence interval (CI), 0.49-0.83; P=0.0008]. However, 1q21+ remained a high-risk factor in patients with MM even after bortezomib treatment [PFS: hazard ratio (HR), 1.72; 95% CI, 1.53-1.93; P<0.00001; and OS: HR, 1.95; 95% CI, 1.58-2.42; P<0.00001]. In conclusion, although bortezomib improved the likelihood of achieving CR in patients with 1q21+, this genetic aberration continues to be considered a high-risk factor in patients with MM treated with a bortezomib-based regimen.

SHARPIN is a novel gene of colorectal cancer that promotes tumor growth potentially via inhibition of p53 expression.

Colorectal cancer (CRC) is widely prevalent and represents a significant contributor to global cancer‑related mortality. There remains a pressing demand for advancements in CRC treatment modalities. The E3 ubiquitin ligase is a critical enzyme involved in modulating protein expression levels via posttranslational ubiquitin‑mediated proteolysis, and it is reportedly involved in the progression of various cancers, making it a target of recent interest in anticancer therapy. In the present study, using comprehensive expression analysis involving spatial transcriptomic analysis with single‑cell RNA sequencing in clinical CRC datasets, the ubiquitin‑associated protein Shank‑associated RH domain interactor (SHARPIN) was identified, located on amplified chromosome 8q, which could promote CRC progression. SHARPIN was found to be upregulated in tumor cells, with elevated expression observed in tumor tissues. This heightened expression of SHARPIN was positively associated with lymphatic invasion and served as an independent predictor of a poor prognosis in patients with CRC. In vitro and in vivo analyses using SHARPIN‑overexpressing or ‑knockout CRC cells revealed that SHARPIN overexpression upregulated MDM2, resulting in the downregulation of p53, while SHARPIN silencing or knockout downregulated MDM2, leading to p53 upregulation, which affects cell cycle progression, tumor cell apoptosis and tumor growth in CRC. Furthermore, SHARPIN was found to be overexpressed in several cancer types, exerting significant effects on survival outcomes. In conclusion, SHARPIN represents a newly identified novel gene with the potential to promote tumor growth following apoptosis inhibition and cell cycle progression in part by inhibiting p53 expression via MDM2 upregulation; therefore, SHARPIN represents a potential therapeutic target for CRC.

Phenotype of patients with late diagnosis of 22q11 deletion: a review and retrospective study.

Chromosome 22q11.2 deletion syndrome (22q11DS) is the most common microdeletion syndrome, typically presenting in neonates with congenital cardiac anomalies, hypocalcaemia and thymic hypoplasia. Some patients are diagnosed later in adolescence and adulthood, with less known about the clinical phenotype of these patients. To summarise key clinical features in cases of 22q11DS diagnosed during adolescence and adulthood. This is a retrospective cohort study of 22q11DS patients diagnosed after 13 years of age over 2010-2021, with a literature review of published cases highlighting other late diagnoses. The study was performed in a large multicentre tertiary health network in Melbourne, Australia. Patients diagnosed with 22q11DS after the age of 13 years were included in the study. Main outcome measures were key clinical features in cases of late diagnosis of 22q11DS. A literature search yielded 53 published case reports and one cohort study for review (62 subjects). Additionally, 10 cases of late diagnosis of 22q11DS were identified through a retrospective electronic medical chart review. Findings suggest that intellectual disability and learning difficulties, hypocalcaemia with hypoparathyroidism and facial dysmorphism remain key features in patients with a late diagnosis of 22q11DS, with hypocalcaemia being the most common presentation leading to diagnosis. Patients diagnosed in adulthood may lack classical clinical features of congenital cardiac anomalies and thymic hypoplasia. Immunological consequences of 22q11DS are also an important late-onset consideration. Atypical features may include basal ganglia calcification. Chromosome 22q11DS has diverse clinical features and a highly variable phenotype, likely contributing to underdiagnosis and later diagnoses.

A case of esophageal squamous cell carcinoma with epidermization showing a unique morphology.

An 80-year-old woman with a history of endoscopic balloon dilation for esophageal stricture caused by accidental ingestion of caustic soda during infancy presented with dysphagia. Upper gastrointestinal endoscopy revealed a 10-cm-long, highly white, elevated lesion with a feathered appearance. This lesion was determined to be the cause of dysphagia and was completely resected via endoscopic submucosal dissection. Histopathological examination revealed a thick keratin layer on the surface of the stratified squamous epithelium, with a prominent granular layer underneath and some areas showing nuclear atypia. The lesion was diagnosed as a well-differentiated squamous cell carcinoma, pT1a-LPM, derived from epidermoid metaplasia. Cancer genome analysis revealed mutations in TP53 as well as amplification of MYC, FGFR1, chromosome 7, and chromosome 20q. This case suggests that epidermoid metaplasia caused by chronic irritation from an esophageal stricture may have been exacerbated by the dilation procedure.

Epilepsy in Angelman syndrome and the most common electroencephalographic findings

Angelman syndrome is a genetic disorder characterised by severe mental retardation, subtle dysmorphic facial features, a characteristic behavioural phenotype, seizures and abnormalities in video electroencephalograms (video EEG). Angelman syndrome may be associated with genetic mechanisms involving the region of chromosome 15q11-13. Up to 90% of cases have epileptic seizures, usually in the early years of life. Videoelectroencephalography patterns with some typical characteristics associated with Angelman syndrome have been reported, although these are not specific to it, and as such it is also useful for early diagnosis, especially in the first months or years of life. To characterise the videoelectroencephalography findings of 17 patients diagnosed with Angelman syndrome, and compare them with previously published studies. We conducted a retrospective observational study of 34 video EEGs performed on 17 patients diagnosed with Angelman syndrome at the clinical neurophysiology service of the Puerta de Hierro University Hospital in Madrid between 2019 and 2022. The primary objective was to characterise the videoelectroencephalographic findings and compare them with previously published studies. As secondary objectives, we analysed the patterns proposed by Dan and Boyd, and other demographic, genetic and clinical data. Video EEG supported the clinical suspicion in our study, as baseline brain activity was altered in all the patients. We identified a pattern similar to those defined by Dan and Boyd in 88% of the cases, and the type III pattern was the most common in our series. These findings confirm that video EEG is highly sensitive for the diagnosis of Angelman syndrome, and very useful as a diagnostic biomarker in the early stages of life.

Malignant Rhabdoid Tumor masquerading as Neuroblastoma: A rare Case-report

Abstract Introduction/Objective Malignant rhabdoid tumors (MRT) predominantly impact infants and young children, typically occurring around the age of 15 months. While they can emerge from soft tissues throughout the body, but commonly initiate in the kidneys. Neuroblastoma-like characteristics are seldom observed within the varied phenotypes of malignant rhabdoid tumors. Here, we present an exceptionally rare and distinctive subtype of malignant rhabdoid tumor exhibiting features akin to neuroblastoma localized within the unusal parapharyngeal space. Methods/Case Report A 2-month-old female presented to the ED with an enlarging right cervical neck mass. The mother reported a one-week history of upper respiratory tract symptoms and noticed an enlarging mass of her right neck. CT reported a “parapharyngeal abscess with airway compression”. The patient was started on Augmentin with no significant improvement. Repeat CT with contrast demonstrated an enlarging rim-enhancing 3 cm mass involving the right parapharyngeal space, trachea, and right carotid arteries. Laryngoscopy and incisional biopsy of right neck lymph nodes demonstrated a high-grade malignancy with prominent nucleoli, high N/C ratio and scant cytoplasm. The tumor tested positive for CD 99, synaptophysin, and neurofilament, leading to the initial diagnosis of neuroblastoma. However, molecular analysis uncovered the loss of INI-1 on 22q11.2, prompting a reevaluation and a final diagnosis of MRT with neuroblastoma-like characteristics was made. Results (if a Case Study enter NA) NA Conclusion A range of tumors displaying distinct “rhabdoid” cytological features are collectively termed as malignant rhabdoid tumors (MRTs). Conventional immunohistochemistry (IHC) staining for CD99, synaptophysin, neurofilament, and myogenin might suggest neuroblastoma, Ewing sarcoma, or rhabdomyosarcoma. However, the absence of INI-1 expression provides a definitive diagnosis. INI-1 loss, a purported tumor suppressor gene located on chromosome 22q11.2, solidifies the tumor’s classification as malignant rhabdoid tumor (MRT). Additionally, a positive neurofilament stain in MRT is crucial for diagnostic and therapeutic assessments. This differentiation is vital, given the dismal prognosis of MRT with a 5-year survival rate of less than 10%.

Event-free survival in neuroblastoma with MYCN amplification and deletion of 1p or 11q may be associated with altered immune status

BackgroundNeuroblastoma exhibits substantial heterogeneity, which is intricately linked to various genetic alterations. We aimed to explore immune status in the peripheral blood and prognosis of patients with neuroblastoma with different genetic characteristics.MethodsWe enrolled 31 patients with neuroblastoma and collected samples to detect three genetic characteristics. Peripheral blood samples were tested for immune cells and cytokines by fluorescent microspheres conjugated with antibodies and flow cytometry. Event-free survival (EFS) was analyzed using the Kaplan‒Meier method.ResultsTwenty-two patients had genetic aberrations, including MYCN amplification in 6 patients, chromosome 1p deletion in 9 patients, and chromosome 11q deletion in 14 patients. Two genetic alterations were present in seven patients. The EFS was worse in patients with MYCN amplification or 1p deletion than in the corresponding group, whereas 11q deletion was a prognostic factor only in patients with unamplified MYCN. Changes in immune status revealed a decrease in the proportion of T cells in blood, and an increase in regulatory T cells and immunosuppression-related cytokines such as interleukin (IL)-10. The EFS of the IL-10 high-level group was lower than that of the low-level group. Patients with concomitant genetic alterations and a high level of IL-10 had worse EFS than other patients.ConclusionsPatients with neuroblastoma characterized by these genetic characteristics often have suppressed T cell response and an overabundance of immunosuppressive cells and cytokines in the peripheral blood. This imbalance is significantly associated with poor EFS. Moreover, if these patients show an elevated levels of immunosuppressive cytokines such as IL-10, the prognosis will be worse.

A Clinico-Genetic Score Incorporating Disease-Free Intervals and Chromosome 8q Copy Numbers: A Novel Prognostic Marker for Recurrence and Survival Following Liver Resection in Patients with Liver Metastases of Uveal Melanoma

Surgical treatment of liver metastases of uveal melanoma (LMUM) could be proposed for selected patients. This retrospective study examined the prognostic significance of the genetic profiles of liver metastases after LMUM resection. A total of 86 patients treated with resection for LMUM, who underwent genetic analysis of liver metastasis, were included. A multivariable Cox model identified the independent predictors of recurrence-free survival (RFS) and overall survival (OS). The disease-free interval (DFI) and a chromosome 8q surgain (&gt;3 copies) were independent predictors and categorized patients into three risk groups with distinct postoperative prognoses. For the low-, intermediate-, and high-risk scores of recurrence, the median RFS values were 15 months (95% CI: 10–22), 6 months (95% CI: 4–11), and 4 months (95% CI: 2–7), and the median OS values were 86 months (95% CI: 55-NR), 25 months (95% CI: 17–48), and 19 months (95% CI: 12–22), respectively. The predictive accuracy of this scoring system was demonstrated by a mean area under the curve (AUC(t)) of 0.77 (95% CI: 0.65–0.90) for RFS and 0.81 (95% CI: 0.70–0.92) for OS. This novel score, based on a DFI of ≤24 months combined with a chromosome 8q surgain, identifies patients at a high risk of early recurrence and could help clinicians to propose perioperative treatment.

The role of 1q abnormalities in multiple myeloma: Genomic insights, clinical implications, and therapeutic challenges

Chromosome 1q copy number variations, collectively termed +1q, are 1 of the most common cytogenetic abnormalities in multiple myeloma. 1q abnormalities are associated with overexpression of a high-risk gene signature promoting cell proliferation, apoptosis resistance, genomic instability, and treatment resistance, and acquisition or expansion of +1q subclones mediate disease development and relapse. While there remains significant controversy as to whether the presence of +1q is itself an independent driver of poor prognosis or is simply a marker of other high-risk features, +1q has recently been incorporated into multiple prognostic scoring models as a new high-risk cytogenetic abnormality. In this review, we present possible underlying genetic mechanisms of high-risk disease in +1q myeloma, implications for subclonal development, its role in modifying the tumor microenvironment, current evidence for clinical significance in newly-diagnosed and relapsed patients, and current controversies in +1q classification and prognostication.