EC:2.7.10.1 - FACTA Search

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Query: EC:2.7.10.1 (ERK)
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The malignant potential of hamartomatous polyps in Peutz-Jeghers' (PPJ) syndrome has been debated. Although it is a very rare event, these polyps can become malignant, as demonstrated by this report. One case of colonic adenocarcinoma associated with Peutz-Jeghers' syndrome is described in a 62-year-old woman. The patient had colonic carcinoma which developed in a hamartomatous polyp. The malignant development of this colonic hamartomatous polyp arising in Peutz-Jeghers' syndrome was pathologically confirmed at surgery. This case also shows a sequence of hamartoma-dysplasia-carcinoma in a hamartomatous polyp without adenomatous changes. This suggests that hamartomatous polyps in Peutz-Jeghers' syndrome may develop into adenocarcinoma and may be a precursor of gastrointestinal carcinomas. STK 11 is a tumor suppressor gene regulating the development of hamartomas, and this somatic mutation promotes gastrointestinal cancer at later stages in Peutz-Jeghers' syndrome.
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PMID:[Peutz-Jeghers' syndrome with malignant development in a hamartomatous polyp: report of one case and review of the literature]. 1845 6

Colorectal polyps containing S-100-positive neural proliferations in the lamina propria that lack ganglion cells have been variously referred to as "neuromas" or "neurofibromas." However, these lesions have not been systematically examined, and whether they are associated with type 1 neurofibromatosis (NF1) or other inherited syndromes is unknown. The aim of this study was to evaluate the clinicopathologic and immunohistochemical features of these lesions, in comparison to colorectal neurofibromas from known NF1 patients. Morphologically similar lesions from 26 patients (mean age, 62 y; range, 46 to 88 y; male/female ratio, 10/16) were retrieved from surgical pathology and consult files. Clinical and endoscopic data were obtained, and immunohistochemistry for S-100 protein, glial fibrillary acidic protein, neurofilament protein (NFP), epithelial membrane antigen, claudin-1, CD34, smooth muscle actin, and KIT was performed. The findings were compared with those in mucosal biopsies of 5 submucosal neurofibromas from NF1 patients. All 26 polyps were sessile, ranging from 1 to 6 mm in size (mean, 2.5 mm). Most arose in the distal colon (15 rectosigmoid, 7 descending, 2 transverse, and 2 ascending), and were incidentally found at screening colonoscopy. After a mean follow-up of 6.5 years (range, 3 mo to 17.5 y), none of the patients developed other neural polyps, and none had evidence of NF1 or other inherited syndromes. Histologically, the lamina propria of the polyps contained a diffuse cellular proliferation of uniform bland spindle cells with elongated, tapering nuclei, abundant, dense eosinophilic cytoplasm, and indistinct cell borders, entrapping adjacent crypts. No nuclear atypia, pleomorphism, mitotic activity, or associated ganglion cells were observed. All showed strong staining for S-100 protein in essentially 100% of cells. NFP highlighted rare axons in 7 lesions. All other markers were negative. The 5 neurofibromas showed similar histologic features, but were generally less uniformly cellular, showed some intralesional heterogeneity, and showed less extensive staining for S-100 protein; all contained scattered NFP-positive axons. In summary, solitary colorectal polyps containing pure Schwann cell proliferations in the lamina propria are not associated with NF1. Distinguishing these lesions from NF1-associated neurofibromas is difficult based on histologic features; the presence of an underlying submucosal nodule or mass should be excluded endoscopically, and immunohistochemistry should be performed. Although their nature is uncertain, we propose the interim designation "mucosal Schwann cell 'hamartoma'" to avoid confusion with the neural lesions that have significant associations with inherited syndromes.
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PMID:Mucosal Schwann cell "hamartoma": clinicopathologic study of 26 neural colorectal polyps distinct from neurofibromas and mucosal neuromas. 1906 3

Neurocristic hamartomas are rare pigmented lesions comprised of melanocytes, Schwann cells, and pigmented dendritic spindle cells that involve the skin and soft tissue. Malignant transformation can rarely arise within neurocristic hamartomas. Up to date, there has been only 1 series of 7 cases of malignant neurocristic hamartomas (MNHs), with 3 cases that developed metastases. We present the histology and clinical course of 3 additional cases of MNH, 2 of which were metastatic. CD117 was strongly positive in all cases with available archival materials--the tumors and background neurocristic hamartoma of 3 cases, and 1 lymph node metastasis; however, KIT sequencing for exons 11, 13, 17, and 18 was negative. Mutational analyses of recurrent mutations of 17 cancer genes, including BRAF and KIT, were also negative. Although our series is small, KIT overexpression in MNH does not seem to correlate with gene mutation. The lack of BRAF, NRAS, GNAQ, and KIT mutations seems to support the notion that MNH may be distinct from conventional melanoma and from other dermal melanomas, such as malignant blue nevi and melanoma arising in congenital nevi.
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PMID:Malignant neurocristic hamartoma: a tumor distinct from conventional melanoma and malignant blue nevus. 2193 81

PTEN: hamartoma tumor syndrome (PHTS) is a group of syndromes caused by mutations in PTEN. Gorham-Stout phenomenon (GSP) is a rare condition characterized by proliferation of vascular structures in bones, resulting in progressive osteolysis. Here we present a 1-year-old boy with PHTS and GSP. The lesion that later proved to be GSP was evident from the age of 4 months, and became symptomatic at the age of 1 year. Eventually, he developed a fatal chylothorax. Mutation analysis revealed a germline heterozygous mutation c.517 C>T (p.Arg173Cys) in exon 6 of PTEN. Analysis of the lymphatic malformation (LM) tissue revealed no loss of heterozygosity (LOH) nor a second, somatic PTEN mutation of the remaining wild type allele. The germline p.Arg173Cys mutation was also present in the mother and the propositus' younger sister and brother. Further molecular work-up showed a heterozygous variant c.2180C>T (p.Ala727Val) FLT4 in the LM tissue, which was also present in the germline of mother and two siblings. GSP has not been reported before in a patient with a PTEN mutation. Up to this date, this mutation is the only genetic defect possibly involved in the etiology of GSP which is plausible given the known function of PTEN in angiogenic signaling.
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PMID:PTEN hamartoma tumor syndrome and Gorham-Stout phenomenon. 2262 60

Cowden's syndrome is a rare autosomal dominant disorder that has been linked to germline mutations in the phosphatase and TENsin homolog (PTEN) gene. PTEN is a tumour suppressor gene that negatively regulates the PI3K-AKT-mTOR pathway. Cowden's syndrome is a multi-system disease with increased risks for a number of malignancies but very rarely for lung cancer. A systematic follow-up chest CT scan was performed to a 42 year's old female, light smoker. It showed a 20mm opacity of the left upper pulmonary lobe. Differential diagnose with benign tumours (such as hamartoma) was carefully searched. Procedures led to the diagnosis of a primitive lung adenocarcinoma. EGFR sequencing shows two rare somatic mutations (S768I and V769L). Lack of expression of PTEN is a non-sufficient condition leads to lung cancer formation alone. Nevertheless, it increases cell oncogenic potential. PTEN lacking in non small cell lung cancer is a frequent issue. It could be an alternative mechanism of non-efficacy of EGFR-TKI in cells with a sensitizing EGFR mutation. This case report, a very rare entity: a patient with a PTEN germline mutation and a lung adenocarcinoma harbouring two concomitant rare somatic mutations of EGFR. This observation comforts PTENs role in lung oncogenesis.
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PMID:Primary lung adenocarcinoma occurring in a PTEN related syndrome (Cowden's disease): routine EGFR sequencing also highlights two rare somatic mutations S768I and V769L. 2326 Dec 30

Epidermal naevi are common cutaneous mosaic disorders that occur in 0.1-0.3% of live births. They are subdivided into keratinocytic and organoid naevi, the latter including naevus sebaceus (NS). Typically, NS develops as a yellowish-orange plaque on the scalp, and represents a hamartoma containing epidermal, sebaceous and apocrine elements. The histological features of NS sampled in childhood include hyperkeratosis, acanthosis, increased sebaceous lobules, and primitive hair follicles. During puberty, most lesions develop more prominent sebaceous and apocrine components. Subsequently, secondary tumours may occur in around 25% of NS; most lesions are benign (e.g. trichoblastomas, syringocystadenoma papilliferum or other basaloid proliferations), although malignant tumours arising within NS can occur (< 1%). Recently, somatic mosaicism has been shown, with activating Ras mutations in HRAS or KRAS in NS lesional keratinocytes (but not in adjacent nonlesional skin or dermal fibroblasts). These mutations lead to constitutive activation of the RAF-MEK-ERK and phosphoinositide 3-kinase signalling pathways, and result in increased cellular proliferation. Similar but more extensive mosaicism underlies Schimmelpenning-Feuerstein-Mims syndrome. The most common mutation is c.37G>C (p.Gly13Arg) in HRAS, which is present in > 90% of NS. This mutation also seems to be present in NS cases that develop secondary tumours, although no additional mutations (second hit) or other genetic events have yet been identified. Treatment of NS often involves prophylactic surgical excision, but the recent identification of key epidermal signalling abnormalities underlying the cell proliferation means that future development of new medical treatments for NS that target the aberrant signalling pathways may also be feasible.
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PMID:Naevus sebaceus: a mosaic RASopathy. 2434 74

Smooth muscle tumors are here considered an essentially dichotomous group composed of benign leiomyomas and malignant leiomyosarcomas. Soft tissue smooth muscle tumors with both atypia and mitotic activity are generally diagnosed leiomyosarcomas acknowledging potential for metastasis. However, lesions exist that cannot be comfortably placed in either category, and in such cases the designation 'smooth muscle tumor of uncertain biologic potential' is appropriate. The use of this category is often necessary with limited sampling, such as needle core biopsies. Benign smooth muscle tumors include smooth muscle hamartoma and angioleiomyoma. A specific category of leiomyomas are estrogen-receptor positive ones in women. These are similar to uterine leiomyomas and can occur anywhere in the abdomen and abdominal wall. Leiomyosarcomas can occur at any site, although are more frequent in the retroperitoneum and proximal extremities. They are recognized by likeness to smooth muscle cells but can undergo pleomorphic evolution ('dedifferentiation'). Presence of smooth muscle actin is nearly uniform and desmin-positivity usual. This and the lack of KIT expression separate leiomyosarcoma from GIST, an important problem in abdominal soft tissues. EBV-associated smooth muscle tumors are a specific subcategory occurring in AIDS or post-transplant patients. These tumors can have incomplete smooth muscle differentiation but show nuclear EBER as a diagnostic feature. In contrast to many other soft tissue tumors, genetics of smooth muscle tumors are poorly understood and such diagnostic testing is not yet generally applicable in this histogenetic group. Leiomyosarcomas are known to be genetically complex, often showing 'chaotic' karyotypes including aneuploidy or polyploidy, and no recurrent tumor-specific translocations have been detected.
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PMID:Smooth muscle tumors of soft tissue and non-uterine viscera: biology and prognosis. 2438 50

Omental mesenteric myxoid hamartoma (OMH) is a distinctive myxoid lesion of infancy, characterized by a benign clinical behavior. In the current World Health Organization (WHO) classification of soft tissue tumors, it is considered as part of the morphologic spectrum of inflammatory myofibroblastic tumors (IMT), but this relationship with IMT is still subject to debate. Four lesions with histologic features of OMH occurring in newborns and toddlers are described and compared with classic, ALK-positive IMT. All OMH showed a peculiar dot-like immunostaining for ALK, which, in one of the cases, was cytogenetically found to be associated with an inversion of the ALK gene. While OMHs were positive for smooth muscle actin (SMA), desmin, WT1, podoplanin, and cytokeratins (CAM5.2 and AE1-3), IMT were consistently positive only for SMA (10 cases). ALK-1 displayed cytoplasmic staining in IMT and characteristic paranuclear dot-like staining in OMH.
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PMID:Omental mesenteric myxoid hamartoma, a subtype of inflammatory myofibroblastic tumor? Considerations based on the histopathological evaluation of four cases. 2638 68

Sporadic sebaceous gland hyperplasia (SGH) is a benign skin lesion, with a high prevalence in the general population. Although SGH has been attributed to both extrinsic and intrinsic factors, the underlying genetic changes have not yet been characterized. Recently, HRAS and KRAS mutations have been identified in sebaceous naevus, a hamartoma sharing histological characteristics with SGH. Therefore we screened 43 SGH for activating mutations in RAS genes and other oncogenes. We identified a wide spectrum of mutually exclusive activating HRAS (8/43), KRAS (11/43) and EGFR mutations (7/31) in altogether 60% of the lesions investigated. A RAS and EGFR wildtype status was found in 15 normal sebaceous glands in the head and neck area. Our findings indicate that activating HRAS, KRAS and EGFR mutations play a major role in the pathogenesis of sporadic SGH. These results support the concept that SGH is a true benign neoplasm rather than a reactive hyperplasia.
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PMID:KRAS, HRAS and EGFR Mutations in Sporadic Sebaceous Gland Hyperplasia. 2680 18

The family of pediatric fibroblastic and myofibroblastic proliferations encompasses a wide spectrum of pathologic entities with overlapping morphologies and ill-defined genetic abnormalities. Among the superficial lesions, lipofibromatosis (LPF), composed of an admixture of adipose tissue and fibroblastic elements, in the past has been variously classified as infantile fibromatosis or fibrous hamartoma of infancy. In this regard, we have encountered a group of superficial soft tissue tumors occurring in children and young adults, with a notably infiltrative growth pattern reminiscent of LPF, variable cytologic atypia, and a distinct immunoprofile of S100 protein and CD34 reactivity, suggestive of neural differentiation. SOX10 and melanocytic markers were negative in all cases tested. In contrast, a control group of classic LPF displayed bland, monomorphic histology and lacked S100 protein immunoreactivity. To define the pathogenetic abnormalities in these seemingly distinctive groups, we performed RNA sequencing for fusion gene discovery in 2 cases each, followed by screening for any novel alterations identified in a larger cohort representing both entities. The 2 index LPF-like neural tumors (LPF-NT) showed TPR-NTRK1 and TPM3-NTRK1 gene fusions, which were further validated by fluorescence in situ hybridization (FISH) and reverse transcription polymerase chain reaction. Subsequent FISH screening of 14 LPF-NT identified recurrent NTRK1 gene rearrangements in 10 (71%) cases. Of the NTRK1-negative LPF-NT cases, 1 case each showed ROS1 and ALK gene rearrangements. In contrast, none of the 25 classic LPFs showed NTRK1 gene rearrangements, although regional abnormalities were noted in the 1q21-22 region by FISH in a majority of cases. Furthermore, NTRK1 immunostaining was positive only in NTRK1-rearranged S100-positive LPF-NT but negative in classic LPF. These results suggest that NTRK1 oncogenic activation through gene fusion defines a novel and distinct subset of soft tissue tumors resembling LPF, but displaying cytologic atypia and a neural immunophenotype, provisionally named LPF-like neural tumors.
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PMID:Recurrent NTRK1 Gene Fusions Define a Novel Subset of Locally Aggressive Lipofibromatosis-like Neural Tumors. 3110 20

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