Pediatric and adult hepatic embryonal sarcoma: a comparative ultrastructural study with morphologic correlations.

Hepatic embryonal (undifferentiated) sarcoma (ES) is a rare pediatric tumor occurring predominantly in the first decade of life, but a few examples of adult ES have also been described. Isolated ultrastructural reports describe contradictory lines of differentiation in these tumors. Four pediatric and 3 adult ES cases were studied ultrastructurally and features were correlated with morphology. Morphologically, tumors were composed of mixture of plump spindle cells and bizarre giant cells, showing abundant cytoplasmic eosinophilic globules. Ultrastructurally, the hallmark features in all cases included dilated RERs and secondary lysosomes with dense precipitates. Dilated mitochondria and mitochondrial-RER complexes were often seen. Other features included intracytoplasmic fat droplets, scant actin microfilaments, and focal glycogen pools. In summary, pediatric and adult ES show similar morphologic and ultrastructural features. Ultrastructurally, hepatic ES have distinctive findings, including dilated RER and electron-dense lysosomal precipitates, which correlate with the eosinophilic hyaline bodies seen microscopically. These findings suggest that ES are composed of fibroblastic, fibrohistiocytic, and undifferentiated cells. Other lines of differentiation were not identified.

Comparative ultrastructural analysis and KIT/PDGFRA genotype in 125 gastrointestinal stromal tumors.

GISTs are the most common mesenchymal neoplasms of the digestive tract and are thought to originate from or differentiate toward the interstitial cell of Cajal lineage. Almost all GISTs express KIT protein and the majority show activating mutations in either KIT or PDGFRA proto-oncogenes. Ultrastructurally, these tumors have been shown to have either a smooth muscle, neuronal, dual, or null phenotype. The objective of this study was to investigate the relationship between ultrastructural features and genotype in a large series of 125 histologically confirmed and CD117 positive GISTs. PCR analysis for the presence of KIT exon 9, 11, 13, and 17 and PDGFRA exon 12 and 18 mutations was performed. There were 62 (50%) tumors located in the stomach and 45 (36%) in the small bowel. Overall, KIT mutations were detected in 93 (75%) patients: 86 (69%) in exon 11, and 7 (6%) in exon 9. A PDGFRA mutation was detected in 7 (6%) cases and 25 (19%) cases had no mutation. Ultrastructurally, skeinoid fibers were seen in 55 (44%) cases and were more common in small bowel than stomach GISTs, and occurred in only in 1 of 16 patients with an ITD (KIT) exon 11 or PDGFRA mutation. Focal actin microfilaments were identified in 82 (65%) cases and did not correlate with location or mutation type. Rare neurosecretory-type granules (NS-G) were seen in 34 (27%) of cases, but were seen in most of the cells in only 5 (4%) cases. GISTs showing both NS-G and microtubules were associated with KIT exon 11 genotype and spindle cell morphology. PDGFRA mutated cases were associated with gastric location, predominantly epithelioid morphology and lacked NS-G.

Spectrum of low-grade fibrosarcomas: a comparative ultrastructural analysis of low-grade myxofibrosarcoma and fibromyxoid sarcoma.

Low-grade fibrosarcomas have recently gained increasing attention in the literature, especially with the fall in popularity polls of the ubiquitous malignant fibrous histiocytoma (MFH). Firstly, most tumors previously known as myxoid MFH are labeled presently as myxofibrosarcomas. Secondly, the recognition and better understanding of a family of fibrosing-type fibrosarcoma, encompassing 3 members: fibromyxoid sarcoma (FMS), hyalinizing spindle cell tumor with giant rosettes (HSTGR), and sclerosing epithelioid fibrosarcoma (SEF). To expand further their understanding of the overlapping and distinct features of members included in the spectrum of low-grade fibrosarcoma, the authors carried out a comparative ultrastructural study among 15 low-grade myxofibrosarcomas (MFS) and 12 fibromyxoid sarcomas (FMS), after review of pathology and confirmation of diagnosis. The ultrastructural findings of the LG MFS identified spindle to plump cells, with abundant cytoplasm, rich in well-developed RER cisternae, often distended and sometimes cystically dilated, containing an electronlucent granular material. These results were in keeping with a well-differentiated fibroblastic-type cell phenotype. In addition, a less prominent cellular component included cells with RER, well-developed Golgi apparatus, lysosomes, and filopodia. These latter features define a fibroblastic variant with histiocytic-like properties, also known as histiofibroblasts. Myofibroblastic differentiation was quite limited and mostly absent in most of the cases. In summary, these findings recapitulate a similar spectrum with the cell constituents of so-called MFH. In contrast, the fine microscopic findings of the 12 FMS cases showed an inactive or more primitive form of fibroblastic type cells. The RER cisternae were generally underdeveloped, as expected for a generic fibroblastic-type proliferation. The cytoplasm was scant and showed a paucity of organelles, with the exception of abundant arrays of vimentin-type intermediate filaments. The very long, thin cell processes, sometimes associated with pinocytotic vesicles, were reminiscent of perineurioma ultrastructure.

The precrystalline cytoplasmic granules of alveolar soft part sarcoma contain monocarboxylate transporter 1 and CD147.

Alveolar soft part sarcoma (ASPS) is an unusual tumor of young adults with the characteristic presence on ultrastructural analysis of rhomboid or rectangular cytoplasmic crystals. These membrane-bound crystals are known to form within specific PAS-diastase-resistant electron-dense cytoplasmic granules. The composition of these crystals and the dense granules from which they are derived has remained elusive. After the detection of strong discrete granular cytoplasmic immunoreactivity in ASPS for monocarboxylate transporter 1 (MCT1) in the course of a broad immunohistochemical characterization of an MCT1 antibody, we studied the expression of MCT1 and its interacting partner, CD147, in a panel of 10 ASPS cases using appropriate antibodies. MCT1 is one of a family of widely expressed proton-linked transporters for monocarboxylates such as lactate and pyruvate. In all normal and neoplastic tissues studied to date, MCT1 immunoreactivity is limited to the cell surface. We find that the periodic acid-Schiff-diastase-resistant cytoplasmic granules of ASPS are strongly immunoreactive for MCT1 and CD147. Specifically, intense cytoplasmic granular positivity for MCT1 and CD147 was found in 7 of 10 and 8 of 10 ASPSs, respectively. Ultrastructural immunohistochemistry with immunogold labeling confirmed that the MCT1 immunoreactivity localized to the cytoplasmic electron-dense granules in ASPS. Western blot analysis of several ASPS cases confirmed that the protein reactive with the MCT1 antibody and that reactive with the CD147 antibody both migrated at the size expected for MCT1 and CD147, respectively. Thus, ASPS cells seem to accumulate MCT1-CD147 complexes in the specific cytoplasmic granules known to undergo crystallization. The possible basis for the overproduction or impaired surface localization of these proteins in ASPS remains unclear.