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1.
Mod Pathol ; 33(10): 1910-1921, 2020 10.
Article in English | MEDLINE | ID: mdl-32291395

ABSTRACT

The spectrum of neoplasms associated with DICER1 variants continues to expand, with the recent addition of primary "DICER1-associated central nervous system sarcoma" (DCS). DCS is a high-grade malignancy predominantly affecting pediatric patients. Six pediatric DCS were identified through a combination of clinical diagnostic studies, archival inquiry, and interinstitutional collaboration. Clinical, histologic, immunohistologic, and molecular features were examined. Genomic findings in the 6 DCS were compared with those in 14 additional DICER1-associated tumors sequenced with the same assay. The six patients presented at ages 3-15 years with CNS tumors located in the temporal (n = 2), parietal (n = 1), fronto-parietal (n = 1), and frontal (n = 2) lobes. All underwent surgical resection. Histologic examination demonstrated high-grade malignant spindle cell tumors with pleuropulmonary blastoma-like embryonic "organoid" features and focal rhabdomyoblastic differentiation; immature cartilage was seen in one case. Immunohistochemically, there was patchy desmin and myogenin staining, and patchy loss of H3K27me3, and within eosinophilic cytoplasmic globules, alfa-fetoprotein staining. Biallelic DICER1 variants were identified in all cases, with germline variants in two of five patients tested. DCS demonstrated genomic alterations enriched for Ras pathway activation and TP53 inactivation. Tumor mutational burden was significantly higher in the 6 DCS tumors than in 14 other DICER1-associated tumors examined (mean 12.9 vs. 6.8 mutations/Mb, p = 0.035). Postoperative care included radiation (n = 5) and chemotherapy (n = 3); at the last follow-up, three patients were alive without DCS, and three had died of disease. Our analysis expands the clinical, histologic, immunohistological, and molecular spectrum of DCS, identifying distinctive features that can aid in the diagnosis, multidisciplinary evaluation, and treatment of DCS.


Subject(s)
Central Nervous System Neoplasms/genetics , Central Nervous System Neoplasms/pathology , DEAD-box RNA Helicases/genetics , Ribonuclease III/genetics , Sarcoma/genetics , Sarcoma/pathology , Adolescent , Child , Child, Preschool , Female , Humans , Male , Mutation
2.
Pediatr Blood Cancer ; 67(9): e28326, 2020 09.
Article in English | MEDLINE | ID: mdl-32667141

ABSTRACT

INTRODUCTION: Tissue from pediatric solid tumors is in high demand for use in high-impact research studies, making the allocation of tissue from an anatomic pathology laboratory challenging. We designed, implemented, and assessed an interdepartmental process to optimize tissue allocation of pediatric solid tumors for both clinical care and research. METHODS: Oncologists, pathologists, surgeons, interventional radiologists, pathology technical staff, and clinical research coordinators participated in the workflow design. Procedures were created to address patient identification and consent, prioritization of protocols, electronic communication of requests, tissue preparation, and distribution. Pathologists were surveyed about the value of the new workflow. RESULTS: Over a 5-year period, 644 pediatric solid tumor patients consented to one or more studies requesting archival or fresh tissue. Patients had a variety of tumor types, with many rare and singular diagnoses. Sixty-seven percent of 1768 research requests were fulfilled. Requests for archival tissue were fulfilled at a significantly higher rate than those for fresh tissue (PĀ >Ā .001), and requests from resection specimens were fulfilled at a significantly higher rate than those from biopsies (PĀ >Ā .0001). In an anonymous survey, seven of seven pathologists reported that the process had improved since the introduction of the electronic communication model. CONCLUSIONS: A collaborative and informed model for tissue allocation is successful in distributing archival and fresh tissue for clinical research studies. Our workflows and policies have gained pathologists' approval and streamlined our processes. As clinical and research programs evolve, a thoughtful tissue allocation process will facilitate ongoing research.


Subject(s)
Biomedical Research/methods , Neoplasms/pathology , Resource Allocation/methods , Specimen Handling/methods , Biopsy , Child , Humans , Neoplasms/diagnosis , Tissue Banks
3.
iScience ; 26(8): 107375, 2023 Aug 18.
Article in English | MEDLINE | ID: mdl-37599829

ABSTRACT

Spinal and bulbar muscular atrophy (SBMA) is a neuromuscular disease with substantial mitochondrial and metabolic dysfunctions. SBMA is caused by polyglutamine (polyQ) expansion in the androgen receptor (AR). Activating or increasing the NAD+-dependent deacetylase, SIRT3, reduced oxidative stress and death of cells modeling SBMA. However, increasing diminished SIRT3 in AR100Q mice failed to reduce acetylation of the SIRT3 target/antioxidant, SOD2, and had no effect on increased total acetylated peptides in quadriceps. Yet, overexpressing SIRT3 resulted in a trend of motor recovery, and corrected TCA cycle activity by decreasing acetylation of SIRT3 target proteins. We sought to boost blunted SIRT3 activity by replenishing diminished NAD+ with PARP inhibition. Although NAD+ was not affected, overexpressing SIRT3 with PARP inhibition fully restored hexokinase activity, correcting the glycolytic pathway in AR100Q quadriceps, and rescued motor endurance of SBMA mice. These data demonstrate that targeting metabolic anomalies can restore motor function downstream of polyQ-expanded AR.

4.
Nat Med ; 28(8): 1581-1589, 2022 08.
Article in English | MEDLINE | ID: mdl-35739269

ABSTRACT

To evaluate the clinical impact of molecular tumor profiling (MTP) with targeted sequencing panel tests, pediatric patients with extracranial solid tumors were enrolled in a prospective observational cohort study at 12 institutions. In the 345-patient analytical population, median age at diagnosis was 12 years (range 0-27.5); 298 patients (86%) had 1 or more alterations with potential for impact on care. Genomic alterations with diagnostic, prognostic or therapeutic significance were present in 61, 16 and 65% of patients, respectively. After return of the results, impact on care included 17 patients with a clarified diagnostic classification and 240 patients with an MTP result that could be used to select molecularly targeted therapy matched to identified alterations (MTT). Of the 29 patients who received MTT, 24% had an objective response or experienced durable clinical benefit; all but 1 of these patients received targeted therapy matched to a gene fusion. Of the diagnostic variants identified in 209 patients, 77% were gene fusions. MTP with targeted panel tests that includes fusion detection has a substantial clinical impact for young patients with solid tumors.


Subject(s)
High-Throughput Nucleotide Sequencing , Neoplasms , Adolescent , Adult , Biomarkers, Tumor/genetics , Child , Child, Preschool , Genomics , High-Throughput Nucleotide Sequencing/methods , Humans , Infant , Infant, Newborn , Molecular Targeted Therapy/methods , Neoplasms/drug therapy , Neoplasms/genetics , Neoplasms/pathology , Prospective Studies , Young Adult
5.
J Mol Diagn ; 23(10): 1269-1278, 2021 10.
Article in English | MEDLINE | ID: mdl-34325058

ABSTRACT

Alterations in the BCOR gene, including internal tandem duplications (ITDs) of exon 15 have emerged as important oncogenic changes that define several diagnostic entities. In pediatric cancers, BCOR ITDs have recurrently been described in clear cell sarcoma of kidney (CCSK), primitive myxoid mesenchymal tumor of infancy (PMMTI), and central nervous system high-grade neuroepithelial tumor with BCOR ITD in exon 15 (HGNET-BCOR ITDex15). In adults, BCOR ITDs are also reported in endometrial and other sarcomas. The utility of multiplex targeted RNA sequencing for the identification of BCOR ITD in pediatric cancers was investigated. All available archival cases of CCSK, PMMTI, and HGNET-BCOR ITDex15 were collected. Each case underwent anchored multiplex PCR library preparation with a custom-designed panel, with BCOR targeted for both fusions and ITDs. BCOR ITD was detected in all cases across three histologic subtypes using the RNA panel, with no other fusions identified in any of the cases. All BCOR ITDs occurred in the final exon, within 16 codons from the stop sequence. Multiplex targeted RNA sequencing from formalin-fixed, paraffin-embedded tissue is successful at identifying BCOR internal tandem duplications. This analysis supports the use of anchored multiplex PCR targeted RNA next-generation sequencing panels for identification of BCOR ITDs in pediatric tumors. The use of post-analytic algorithms to improve the detection of BCOR ITD using DNA panels was also explored.


Subject(s)
Brain Neoplasms/genetics , High-Throughput Nucleotide Sequencing/methods , Kidney Neoplasms/genetics , Neoplasms, Neuroepithelial/genetics , Proto-Oncogene Proteins/genetics , Repressor Proteins/genetics , Sarcoma, Clear Cell/genetics , Sequence Analysis, RNA/methods , Soft Tissue Neoplasms/genetics , Tandem Repeat Sequences/genetics , Child , Child, Preschool , Codon/genetics , Exons , Female , Humans , Infant , Male , Multiplex Polymerase Chain Reaction/methods , Oncogenes , Reproducibility of Results
6.
Clin Cancer Res ; 26(12): 2882-2890, 2020 06 15.
Article in English | MEDLINE | ID: mdl-32122923

ABSTRACT

PURPOSE: Several aggressive pediatric cancers harbor alterations in SMARCB1, including rhabdoid tumors, epithelioid sarcoma, and chordoma. As tumor profiling has become more routine in clinical care, we investigated the relationship between SMARCB1 genetic variants identified by next-generation sequencing (NGS) and INI1 protein expression. Therapeutic approaches for INI1-deficient tumors are limited. Early reports suggest a potential role for immune checkpoint inhibition in these patients. Thus, we also investigated PD-L1 and CD8 expression in INI1-negative pediatric brain and solid tumors. EXPERIMENTAL DESIGN: We performed immunohistochemistry (IHC) for INI1 and immune markers (PD-L1, CD8, and CD163) and NGS on tumor samples from 43 pediatric patients who had tumors with INI1 loss on previous IHC or SMARCB1 genomic alterations on prior somatic sequencing. RESULTS: SMARCB1 two-copy deletions and inactivating mutations on NGS were associated with loss of INI1 protein expression. Single-copy deletion of SMARCB1 was not predictive of INI1 loss in tumor histologies not known to be INI1-deficient. In the 27 cases with INI1 loss and successful tumor sequencing, 24 (89%) had a SMARCB1 alteration detected. In addition, 47% (14/30) of the patients with INI1-negative tumors had a tumor specimen that was PD-L1 positive and 60% (18/30) had positive or rare CD8 staining. We report on 3 patients with INI1-negative tumors with evidence of disease control on immune checkpoint inhibitors. CONCLUSIONS: A significant proportion of the INI1-negative tumors express PD-L1, and PD-L1 positivity was associated with extracranial tumor site. These results suggest that clinical trials of immune checkpoint inhibitors are warranted in INI1-negative pediatric cancers.


Subject(s)
B7-H1 Antigen/metabolism , Biomarkers, Tumor/genetics , Immune Checkpoint Inhibitors/therapeutic use , Mutation , Neoplasms/pathology , SMARCB1 Protein/deficiency , Adolescent , B7-H1 Antigen/antagonists & inhibitors , B7-H1 Antigen/genetics , Child , Child, Preschool , Female , Follow-Up Studies , Gene Expression Regulation, Neoplastic , High-Throughput Nucleotide Sequencing , Humans , Infant , Male , Neoplasms/drug therapy , Neoplasms/genetics , Neoplasms/immunology , Prognosis , SMARCB1 Protein/genetics
7.
Tuberculosis (Edinb) ; 115: 14-23, 2019 03.
Article in English | MEDLINE | ID: mdl-30948168

ABSTRACT

A collection of over 1600 sequenced bacteriophages isolated on a single host strain, Mycobacterium smegmatis mc2155, can be grouped into over two dozen types that have little or no nucleotide sequence similarity to each other. One group, Cluster K, can be divided into several subclusters, and the well-characterized and much exploited phage TM4 lies in Subcluster K2. Many of the Cluster K phages have broad host ranges and infect both fast- and slow-growing mycobacterial strains. Here we describe phage ZoeJ, a new Subcluster K2 member, which infects a broad spectrum of mycobacterial hosts including M. smegmatis, Mycobacterium tuberculosis, and Mycobacterium avium. ZoeJ has extensive sequence similarity to TM4, and comparative analysis reveals the precise deletion conferring the lytic phenotype of TM4. The ZoeJ immunity repressor was identified as gene 45, which is prophage-expressed, is required for lysogeny, and is sufficient to confer superinfection immunity to ZoeJ. ZoeJ gp45 also confers immunity to Subcluster K2 phage Milly, and Subcluster K1 phages Adephagia and CrimD, but surprisingly not to TM4. RNAseq analysis reveals the temporal pattern of early and late gene expressions in ZoeJ lytic growth and suggests a role for the ESAS motifs for gene regulation.


Subject(s)
Genome, Bacterial/genetics , Mycobacteriophages/genetics , Mycobacterium/genetics , Bacterial Proteins/genetics , DNA, Bacterial/genetics , Genes, Bacterial/genetics , Host-Pathogen Interactions , Immunity, Cellular/genetics , Immunity, Cellular/immunology , Mycobacteriophages/immunology , Mycobacteriophages/pathogenicity , Mycobacterium/immunology , Mycobacterium/pathogenicity , Mycobacterium tuberculosis/genetics , Mycobacterium tuberculosis/immunology , Mycobacterium tuberculosis/pathogenicity , Plasmids/genetics , Recombinant Proteins , Whole Genome Sequencing
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