Soft tissue tumors with GLI1 gene fusions or amplifications have been recently described as a unique pathologic entity with an established risk of malignancy. We herein expand these findings by investigating a cohort of 11 head and neck lesions with GLI1 alterations, including 8 from the tongue, for their clinicopathologic and molecular features. The tumors commonly affected males in their 30s (male:female ratio 2.7:1; range: 1 to 65). Tumors showed a multinodular growth pattern, nested architecture separated by a delicate, arborizing vascular network, monotonous round to ovoid nuclei, and clear cytoplasm. Tumor protrusion into vascular spaces was common. Genetic alterations were investigated by fluorescence in situ hybridization and/or targeted RNA sequencing. Seven tumors harbored GLI1 fusions with the following partners: ACTB (n=4), PTCH1 (n=2), or MALAT1 (n=1). The remaining 4 cases showed coamplifications of GLI1 with CDK4 and MDM2 genes. Tumors were commonly positive for S100 protein and CD56. CDK4, MDM2, and STAT6 were positive in GLI1-amplified tumors. Two of 6 patients with available follow-up (1 each with GLI1 amplification and PTCH1-GLI1 fusion) developed distant metastases. Both tumors showed a high mitotic index and tumor necrosis. The head and neck region, particularly tongue, is a common location for GLI1-related mesenchymal tumors. Although a morphologic overlap was noted with the previously reported “pericytoma with t(7,12) translocation,” often occurring in the tongue, our findings expand the original findings, to include a more variable immunophenotype, propensity for late distant metastases, and alternative mechanisms of GLI1 oncogenic activation, such as various GLI1 fusion partners or GLI1 coamplifications with MDM2 and CDK4 genes.
Background: Longitudinal melanonychia (LM) may occur as a result of nail apparatus melanoma. Knowledge of etiology plays an important role in the management of LM. Objectives: The study is aimed to compare the diagnosis of LM in different age groups. Methods: We collected 63 cases (45 adults and 18 children) with LM who underwent nail matrix biopsy or excision in a 21-year cohort and assessed their clinicopathological features. Results: Melanomas in adults and children were 40% and none, while nevi accounted for 15.6% in adults and 94.4% in children. There was a statistically significant difference between the average age at diagnosis for melanoma (54.5 ± 13.3 years) and nevus (15.2 ± 18.5 years). Logistic regression related the occurrence of melanoma to older ages with a relative risk of 1.2 compared to nevus, but no cutoffs between age groups could be defined between LM-associated nevus and melanoma. Conclusion: The adult group has a significantly higher risk of melanoma, while children with LM show mostly nonmelanoma etiologies. Tissue proof is more warranted in adult cases, and it is needed in selected cases of children with LM.
ObjectiveHereditary transthyretin amyloidosis (ATTRv) encompasses different phenotypes among various genotypes. The analysis of the natural history and risk factors of faster progression in different genotypes would refine the treatment strategy.MethodsThe clinical manifestations of ATTRv from A97S (p.A117S) of Taiwanese and late-onset V30M (p.V50M) of Japanese were compared. An autopsy study of A97S was performed.ResultsThere existed three unique features in the A97S cohort compared to the V30M cohort: (1) dysphagia, (2) carpal tunnel syndrome (CTS), and (3) onset age. First, dysphagia was common in A97S (53.4%) but not in V30M and served as a contributor to fast disease progression. All phases of swallowing were affected. In the autopsy pathology, there were extensive amyloid deposits in the viscera and nerves of the tongue, larynx, and esophagus. In A97S, 45 patients (43.3%) had a history of CTS before the onset of length-dependent symptoms by 3 years. The amyloid deposition was more prominent in the median nerve than that in the transverse carpal ligament. The onset age at different stages was younger in the A97S cohort than the V30M cohort by 4–5 years.ConclusionThese phenotypic characteristics together with autopsy pathology in A97S are distinct from V30M. Early dysphagia in A97S correlated with fast progression. In A97S, median neuropathy leading to CTS might be in a continuous spectrum of ATTRv course rather than an independent disease entity. Such observations may serve as a foundation to explore and analyze unique phenotypes among various genotypes.
Ischemic stroke with a mismatch between diffusion-weighted imaging (DWI) and fluid-attenuated inversion recovery (FLAIR) or T2-weighted images indicates onset within 4.5 h, but the pathological substrates in the DWI-T2 mismatch and T2(+) areas remain elusive. In this study, proteomics was used to explore (1) the protein expression profiles in the T2(+), mismatch, and contralateral areas, and (2) the protein with the highest expression in the T2(+) area in the brains of male Sprague-Dawley rats within 4.5 h after middle cerebral artery occlusion (MCAO). The expression of the candidate protein was further validated in (1) rat brain subjected to MCAO, (2) rat primary cortical neuronal culture with oxygen-glucose deprivation (OGD), and (3) infarcted human brain tissues. This study showed that apoptosis was observed in the T2(+) and mismatch regions and necroptosis in the T2(+) region of rat brains after MCAO. We identified capping protein regulator and myosin 1 linker 3 (CARMIL3) as the candidate molecule in the T2(+) and mismatch areas, exclusively in neurons, predominantly in the cytoplasm, and most abundant in the mismatch area. The CARMIL3(+) neurons and neurites in the mismatch and T2(+) areas were larger than those in the control area, and associated with (1) increased expression of sulfonylurea receptor 1 (SUR1), indicating edema, (2) accumulation of p62, indicating impaired autophagy, and (3) increase in 8-hydroxy-2′-deoxyguanosine (8-OHdG), indicating oxidative stress. The increased expression of CARMIL3 was validated in a cell model of cortical neurons after OGD and in infarcted human brain tissues. In conclusion, this study shows that the mismatch and T2(+) areas within 4.5 h after ischemia are characterized by upregulated expression of CARMIL3 in neurons, particularly the mismatch area, which is associated with neuronal edema, impaired autophagy, and oxidative stress, indicating that CARMIL3 serves as a molecular signature of brain ischemia.
Hereditary transthyretin (ATTRv) amyloidosis is a systemic disease with amyloid deposition in the peripheral and autonomic nervous systems caused by mutation of transthyretin (TTR) gene. The mutant TTR S77Y is the second prevalent mutation in many countries. In Taiwan, A97S mutant accounts for more than 90% of cases. Although distinct clinical manifestations such as dysphagia, carpal tunnel syndrome, and sudden cardiac death occur, the underlying pathology has not been elucidated. Here, we report the first autopsy cases of ATTRv S77Y and A97S and comprehensively compare the pathology underlying the unique clinical manifestations. This study demonstrated the following: (1) distinct spatial patterns of amyloid deposits in peripheral nerves, with a tendency toward more amyloid deposition in the large peripheral nerves, particularly the median nerves, and scarcely in the sural nerves, and different amyloid distribution in different genotypes; (2) amyloid deposits in the conduction system of the heart in addition to surrounding cardiomyocytes; (3) extensive amyloid deposits in the larynx and gastrointestinal tract, contributing to the unique clinical symptom of dysphagia; and (4) characteristic TTR intracytoplasmic inclusions in the hepatocytes of A97S. The pathology of the first autopsied cases of ATTRv S77Y and A97S provides pathology and mechanisms underlying unique clinical manifestations.
Purpose: Satisfactory treatment options for advanced leiomyosarcoma (LMS) and liposarcoma (LPS) are limited. The LEADER study (NCT03526679) investigated the safety and efficacy of lenvatinib plus eribulin. Patients and Methods: LEADER is a multicenter phase Ib/II study for advanced LMS or LPS. The phase Ib part enrolled six patients to determine the dose-limiting toxicity (DLT) and recommended phase II dose (RP2D) with the starting dose of lenvatinib 18mg/day and eribulin 1.1mg/m2 D1, D8 every 21 days. The primary endpoint of the phase II part was objective response rate (ORR) based on RECIST 1.1, with phase Ib patients preplanned to be included in the efficacy analysis. Translational analyses were based on the transcriptomic data obtained from the Nanostring nCounter platform. Results: Thirty patients were enrolled (LMS 21, LPS 9); the median age was 59. One patient had to temporarily stop lenvatinib due to grade 2 arthritis in the first cycle, meeting DLT criteria. Four out of six patients had to decrease the dose of lenvatinib to 14mg between cycles two and three. RP2D was determined at lenvatinib 14 mg/day and eribulin 1.1 mg/m2. The confirmed ORR was 20%, and the ORR was not significantly different between phase Ib/II cohorts (p = 0.23). The median progression-free survival was 8.56 months (95% CI 4.40–not reached). Translational studies suggested increased dendritic cells in the tumor microenvironment after treatment. Conclusions: Lenvatinib plus eribulin has a manageable safety profile and exhibits promising efficacy for treating advanced LMS and LPS.
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