Frequency of Microsatellite Instability in Unselected Sebaceous Gland Neoplasias and Hyperplasias

Sebaceous gland neoplasias are the cutaneous manifestation of the Muir–Torre syndrome, which is known to be a phenotypical variant of hereditary nonpolyposis colorectal cancer. Both hereditary nonpolyposis colorectal cancer and Muir–Torre syndrome are caused by inherited DNA mismatch repair defects. As a prominent molecular genetic feature, all tumors associated with a DNA mismatch repair defect exhibit high microsatellite instability. So far, the frequency of DNA mismatch repair defects in patients selected solely on the basis of a sebaceous gland tumor has never been determined. In order to estimate this frequency, we assessed microsatellite instability with up to 10 microsatellite markers in a newly collected unselected series of 25 sebaceous gland neoplasias (six sebaceous adenomas, 16 sebaceous epitheliomas, three sebaceous carcinomas) in comparison to 32 sebaceous gland hyperplasias from unrelated patients. As many as 15 of the 25 sebaceous gland neoplasias (60%), but only one of the 32 sebaceous gland hyperplasias (3%), exhibited high microsatellite instability. Thus, in our study, the majority of patients with a sebaceous gland neoplasia in contrast to patients with a sebaceous gland hyperplasia are highly suspicious for an inherited DNA mismatch repair defect. On the basis of the subsequently collected tumor histories, nine of the 15 patients with a high microsatellite unstable sebaceous gland neoplasia were identified to have Muir–Torre syndrome. In none of these cases, however, were the clinical Amsterdam criteria for diagnosing hereditary nonpolyposis colorectal cancer fulfilled. In the sebaceous tumors of the remaining six patients, high microsatellite instability was an incidental finding. In two of these six patients, single relatives were known to be affected with internal cancer; however, their family histories were not suggestive of Muir–Torre syndrome or hereditary nonpolyposis colorectal cancer. In comparison with microsatellite instability screening studies in a variety of other randomly selected tumors, our study identifies sebaceous gland neoplasias as tumors with the highest frequency of high microsatellite instability reported so far, whereas sebaceous gland hyperplasia rarely exhibits high microsatellite instability. Therefore, screening for microsatellite instability in sebaceous gland neoplasias will be of great value in the detection of an inherited DNA mismatch repair defect, which predisposes to various types of internal cancers

Rapid Melanoma Death of an Adult Male with Congenital Bathing Trunk Nevus despite Initiation of Combination Immunotherapy

Dear Editors: Giant congenital melanocytic naevus (GCMN)-associated melanoma in adults is very rare [...

A proposal for improving multicolor FISH sensitivity in the diagnosis of malignant melanoma using new combined criteria

ABSTRACT:: Fluorescence in situ hybridization (FISH) for the diagnosis of melanoma makes use of specific fluorescent probes to detect selected chromosomal alterations on paraffin-embedded tissue samples. To date, interpretation of FISH data has been based on numerical values generated by 2 different computational algorithms that of Abbott and that of Gerami. To further evaluate the value of FISH in the diagnosis of malignant melanoma, we selected 163 clinically and histologically unequivocal cases of malignant melanoma in a cohort of 575 melanocytic tumors and analyzed FISH data using the criteria of Abbott, Gerami, and new combined criteria. Depending on the used criteria, FISH was positive in the unequivocal malignant melanoma in 69.3% (113/163) of cases using the Abbott criteria, 74.2% (121/163) of cases using the Gerami criteria, and 82.2% (134/163) of cases using the combined criteria of Abbott and Gerami. Although use of all 3 criteria was associated with 100% FISH negativity in a cohort of 30 unequivocal benign melanocytic nevi, use of the combined criteria revealed more FISH-positive cases in ambiguous benign melanocytic lesions than the criteria of Abbott or Gerami alone: Abbott, 125 of 367; Gerami, 146 of 367; combined, 161 of 367. Furthermore, we show that 66% (8/12) of FISH-negative cases of unequivocal melanoma are positive when analyzed by array comparative genomic hybridization (aCGH), demonstrating that false-negative results remain despite the usage of the combined criteria for evaluation of FISH data. In these 8 FISH-negative aCGH-positive cases, copy number alterations were often located on chromosomes 9p, a chromosomal locus that is not targeted by the FISH probes currently used. In conclusion, the existing criteria for the evaluation of multicolor melanocytic FISH are limited by a nonnegligeable rate of false negativity that can be reduced by using newly proposed combined criteria but at the cost of increased detection of FISH positivity in ambiguous benign melanocytic lesions

Primary cutaneous follicle center lymphoma with diffuse CD30 expression: a report of 4 cases of a rare variant

BACKGROUND: CD30 is expressed in aggressive and Epstein-Barr virus-associated forms of B-cell non-Hodgkin lymphomas, but is rarely expressed by the majority of tumor cells in primary cutaneous B-cell lymphomas (CBCLs). The expression of CD30 in CBCLs may be at risk for misinterpretation as an unequivocal indicator of a highly aggressive form of the disease. OBJECTIVE: We report 4 cases of low malignant primary cutaneous follicle center lymphoma (PCFCL) with diffuse and strong expression of CD30 by the majority of neoplastic cells. RESULTS: The patients included 3 men and 1 woman with tumors on the scalp (3 patients) and chest wall (1 patient). The histologic examinations revealed a mixed, diffuse, and follicular growth pattern with CD20(+), bcl-6(+), and bcl-2(-) tumor cells. Seventy percent to 90% of the tumor cells expressed CD30. Clonal rearrangement of immunoglobulin heavy chain genes was found in 1 of 4 cases. None of the 3 cases yielded positivity for Epstein-Barr virus RNA. LIMITATIONS: The study is limited by the small number of patients. CONCLUSIONS: This rare variant of CD30(+) PCFCL needs be distinguished from CD30(+) aggressive B-cell lymphomas. CD30 in this variant of CBCLs may serve as a therapeutic target for anti-CD30 antibody-based strategies

Whole-exome sequencing in eccrine porocarcinoma indicates promising therapeutic strategies

Malignant sweat gland tumours are rare, with the most common form being Eccrine porocarcinoma (EP). To investigate the mutational landscape of EP, we performed whole-exome sequencing (WES) on 14 formalin-fixed paraffin-embedded samples of matched primary EP and healthy surrounding tissue. Mutational profiling revealed a high overall median mutation rate. This was attributed to signatures of mutational processes related to ultraviolet (UV) exposure, APOBEC enzyme dysregulation, and defective homologous double-strand break repair. All of these processes cause genomic instability and are implicated in carcinogenesis. Recurrent driving somatic alterations were detected in the EP candidate drivers TP53, FAT2, CACNA1S, and KMT2D. The analyses also identified copy number alterations and recurrent gains and losses in several chromosomal regions including that containing BRCA2, as well as deleterious alterations in multiple HRR components. In accordance with this reduced or even a complete loss of BRCA2 protein expression was detected in 50% of the investigated EP tumours. Our results implicate crucial oncogenic driver pathways and suggest that defective homologous double-strand break repair and the p53 pathway are involved in EP aetiology. Targeting of the p53 axis and PARP inhibition, and/or immunotherapy may represent promising treatment strategies

ALK‐rearranged, CD34‐positive spindle cell neoplasms resembling dermatofibrosarcoma protuberans : a study of seven cases

AimsThe majority of dermatofibrosarcoma protuberans (DFSP) harbour PDGFB or PDGFD rearrangements. We encountered ALK expression/rearrangement in a PDGFB/D-negative CD34-positive spindle cell neoplasm with features similar to DFSP, prompting evaluation of ALK-rearrangements in DFSP and plaque-like CD34-positive dermal fibroma (P-LDF). Methods and ResultsWe searched the archives of academic institutions for cases previously coded as DFSP and P-LDF. NGS-na & iuml;ve or PDGFB-negative DFSP were screened for ALK (clone D5F3) expression by immunohistochemistry. NGS or ALK FISH was performed on ALK-positive cases. Methylome profiling studies were performed and compared with conventional DFSP. One case of "DFSP" and two "P-LDF" with ALK expression were identified from the archives, while four cases were detected prospectively. These seven cases (6F:1M; 8 months to 76 years) arose in the dermis of the arm (two), scalp, eyelid, thigh, abdomen, and shoulder and ranged from 0.4 to 4.2 cm. Tumours were composed of spindled cells and displayed a storiform growth pattern. Cytologic atypia was absent, and mitotic figures were scarce (0-2/10 HPFs, high power fields). The lesional cells were diffusely positive for CD34 and ALK and negative for S100 protein. By NGS (n = 5), ALK fusion partners included DCTN1 (2), PLEKHH2, and CLIP2 in DFSP-like cases and FLNA in P-LDF-like lesions. ALK FISH was positive in one (of two) cases previously labelled P-LDF. Methylome profiling of two (of three) ALK-rearranged DFSP-like tumours showed clustering with conventional DFSP in the UMAP dimension reduction plot. To date, no tumour has recurred (n = 2; 26, 27 months). ConclusionWe describe a cohort of novel ALK-rearranged tumours with morphologic features similar to DFSP