Douglas R. Fullen

Efficient tumour formation by single human melanoma cells

A fundamental question in cancer biology is whether cells with tumorigenic potential are common or rare within human cancers. Studies on diverse cancers, including melanoma, have indicated that only rare human cancer cells (0.1–0.0001%) form tumours when transplanted into non-obese diabetic/severe combined immunodeficiency (NOD/SCID) mice. However, the extent to which NOD/SCID mice underestimate the frequency of tumorigenic human cancer cells has been uncertain. Here we show that modified xenotransplantation assay conditions, including the use of more highly immunocompromised NOD/SCID interleukin-2 receptor gamma chain null (Il2rg-/-) mice, can increase the detection of tumorigenic melanoma cells by several orders of magnitude. In limiting dilution assays, approximately 25% of unselected melanoma cells from 12 different patients, including cells from primary and metastatic melanomas obtained directly from patients, formed tumours under these more permissive conditions. In single-cell transplants, an average of 27% of unselected melanoma cells from four different patients formed tumours. Modifications to xenotransplantation assays can therefore dramatically increase the detectable frequency of tumorigenic cells, demonstrating that they are common in some human cancers.

Phenotypic Heterogeneity among Tumorigenic Melanoma Cells from Patients that Is Reversible and Not Hierarchically Organized

We investigated whether melanoma is hierarchically organized into phenotypically distinct subpopulations of tumorigenic and nontumorigenic cells or whether most melanoma cells retain tumorigenic capacity, irrespective of their phenotype. We found 28% of single melanoma cells obtained directly from patients formed tumors in NOD/SCID IL2Rγ(null) mice. All stage II, III, and IV melanomas obtained directly from patients had common tumorigenic cells. All tumorigenic cells appeared to have unlimited tumorigenic capacity on serial transplantation. We were unable to find any large subpopulation of melanoma cells that lacked tumorigenic potential. None of 22 heterogeneously expressed markers, including CD271 and ABCB5, enriched tumorigenic cells. Some melanomas metastasized in mice, irrespective of whether they arose from CD271(-) or CD271(+) cells. Many markers appeared to be reversibly expressed by tumorigenic melanoma cells.

Anti-oncogenic role of the endoplasmic reticulum differentially activated by mutations in the MAPK pathway

Dysfunction of the endoplasmic reticulum (ER) has been reported in a variety of human pathologies, including cancer. However, the contribution of the ER to the early stages of normal cell transformation is largely unknown. Using primary human melanocytes and biopsies of human naevi (moles), we show that the extent of ER stress induced by cellular oncogenes may define the mechanism of activation of premature senescence. Specifically, we found that oncogenic forms of HRAS (HRASG12V) but not its downstream target BRAF (BRAFV600E), engaged a rapid cell-cycle arrest that was associated with massive vacuolization and expansion of the ER. However, neither p53, p16INK4a nor classical senescence markers – such as foci of heterochromatin or DNA damage – were able to account for the specific response of melanocytes to HRASG12V. Instead, HRASG12V-driven senescence was mediated by the ER-associated unfolded protein response (UPR). The impact of HRAS on the UPR was selective, as it was poorly induced by activated NRAS (more frequently mutated in melanoma than HRAS). These results argue against premature senescence as a converging mechanism of response to activating oncogenes and support a direct role of the ER as a gatekeeper of tumour control.

The atypical Spitz tumor of uncertain biologic potential

Atypical Spitz tumors (AST) are rare spitzoid melanocytic proliferations with an uncertain malignant potential. ASTs have overlapping features of both Spitz nevi and spitzoid melanoma, and consequently generate controversy with diagnosis and management. Sentinel lymph node biopsy (SLNB) has been proposed as a possible means to gain additional insight into the true biologic potential of these tumors; however, previous reports on the use of SLNB in ASTs have been limited by small numbers of patients and short durations of follow‐up.

Features Predicting Sentinel Lymph Node Positivity in Merkel Cell Carcinoma

PURPOSE Merkel cell carcinoma (MCC) is a relatively rare, potentially aggressive cutaneous malignancy. We examined the clinical and histologic features of primary MCC that may correlate with the probability of a positive sentinel lymph node (SLN). METHODS Ninety-five patients with MCC who underwent SLN biopsy at the University of Michigan were identified. SLN biopsy was performed on 97 primary tumors, and an SLN was identified in 93 instances. These were reviewed for clinical and histologic features and associated SLN positivity. Univariate associations between these characteristics and a positive SLN were tested for by using either the χ(2) or the Fishers exact test. A backward elimination algorithm was used to help create a best multiple variable model to explain a positive SLN. RESULTS SLN positivity was significantly associated with the clinical size of the lesion, greatest horizontal histologic dimension, tumor thickness, mitotic rate, and histologic growth pattern. Two competing multivariate models were generated to predict a positive SLN. The histologic growth pattern was present in both models and combined with either tumor thickness or mitotic rate. CONCLUSION Increasing clinical size, increasing tumor thickness, increasing mitotic rate, and infiltrative tumor growth pattern were significantly associated with a greater likelihood of a positive SLN. By using the growth pattern and tumor thickness model, no subgroup of patients was predicted to have a lower than 15% to 20% likelihood of a positive SLN. This suggests that all patients presenting with MCC without clinical evidence of regional lymph node disease should be considered for SLN biopsy.

CD117 (KIT receptor) expression in Merkel cell carcinoma

The KIT receptor tyrosine kinase (CD117 antigen) is found in a variety of normal tissue cell types and in several malignant tumors, including acute myeloid leukemia. We recently encountered two tumors initially suspected as acute myeloid leukemia cutis and expressing CD117 that showed punctate positivity for cytokeratin 20 diagnostic for Merkel cell carcinoma. We evaluated 20 additional cases of MCC and found that 21 of 22 tumors (95%) expressed CD117. Intensity of CD117 expression did not appear to correlate with aggressive behavior. While the function of the KIT receptor in MCC is not known, its pathogenic role in other malignant neoplasms suggests the possibility of a similar role in MCC.

Risk Assessment for Atypical Spitzoid Melanocytic Neoplasms Using FISH to Identify Chromosomal Copy Number Aberrations

Risk assessment for atypical Spitz tumors remains an enigma for physicians. Many prognosticators including sentinel lymph node biopsy fail to show the same prognostic significance in these tumors as seen in conventional melanoma. We conducted a case-controlled collaborative study involving multiple major melanoma treatment centers in the United States and Australia. Sixty-four atypical Spitz tumors with 5 years of uneventful follow-up and 11 atypical Spitz tumors resulting in advanced locoregional disease, distant metastasis, or death were evaluated by fluorescence in situ hybridization using 2 probe sets targeting 6 chromosomal loci. Predetermined criteria were utilized to detect the presence or absence of copy number aberrations for each locus. Logistic regression analysis, Fisher exact test, and multivariate analysis were performed to determine chromosomal copy number aberrations with statistically significant association with aggressive clinical behavior. Gains in 6p25 or 11q13 and homozygous deletions in 9p21 had statistically significant association with aggressive clinical behavior with P-values of 0.02, 0.02, and <0.0001, respectively. In multivariate analysis, homozygous 9p21 deletion was highly associated with clinically aggressive behavior (P<0.0001) and death due to disease (P=0.003). Fluorescence in situ hybridization detecting a limited number of chromosomal copy number aberrations can provide clinically useful and statistically significant risk assessment for atypical Spitz tumors. Cases with homozygous 9p21 deletions have the greatest risk. Cases with 6p25 or 11q13 gains also have higher risk for aggressive clinical behavior than FISH-negative atypical Spitz tumors or cases with 6q23 deletions.

The Distinctive Mutational Spectra of Polyomavirus-Negative Merkel Cell Carcinoma

Merkel cell carcinoma (MCC) is a rare but highly aggressive cutaneous neuroendocrine tumor. Merkel cell polyomavirus (MCPyV) may contribute to tumorigenesis in a subset of tumors via inhibition of tumor suppressors such as retinoblastoma (RB1) by mutated viral T antigens, but the molecular pathogenesis of MCPyV-negative MCC is largely unexplored. Through our MI-ONCOSEQ precision oncology study, we performed integrative sequencing on two cases of MCPyV-negative MCC, as well as a validation cohort of 14 additional MCC cases (n = 16). In addition to previously identified mutations in TP53, RB1, and PIK3CA, we discovered activating mutations of oncogenes, including HRAS and loss-of-function mutations in PRUNE2 and NOTCH family genes in MCPyV-negative MCC. MCPyV-negative tumors also displayed high overall mutation burden (10.09 ± 2.32 mutations/Mb) and were characterized by a prominent UV-signature pattern with C > T transitions comprising 85% of mutations. In contrast, mutation burden was low in MCPyV-positive tumors (0.40 ± 0.09 mutations/Mb) and lacked a UV signature. These findings suggest a potential ontologic dichotomy in MCC, characterized by either viral-dependent or UV-dependent tumorigenic pathways.

Copy Number Variations and Clinical Outcome in Atypical Spitz Tumors

Atypical Spitz tumors (ASTs) are rare spitzoid neoplasms of uncertain biological behavior. Our study was designed to characterize genetic abnormalities that may help to differentiate ASTs from melanoma or Spitz nevi. We examined copy number variation in formalin-fixed, paraffin-embedded samples using an Agilent 44k array comparative genomic hybridization platform. Sixteen patients with AST (8 with positive sentinel lymph node biopsy, 1 with distant metastasis), 8 patients with Spitz nevi, and 3 patients with melanoma (2 spitzoid, 1 superficial spreading) were evaluated. Chromosomal aberrations were found in 7 of 16 ASTs, 1 with fatal outcome, 2 spitzoid melanomas, and 1 conventional melanoma. We found no difference in chromosomal instability between AST patients with positive and negative sentinel lymph node biopsies. Our patient with widely metastatic AST lacked the most frequent aberrations in melanoma involving chromosomes 6 and 11q that are loci targeted by fluorescence in situ hybridization (FISH) probes developed to distinguish malignant melanoma from benign melanocytic lesions. The vast majority of chromosomal abnormalities observed in ASTs are not commonly found in melanomas, suggesting that AST may be a distinct clinical entity and raising additional questions regarding their malignant potential, prognosis, and clinical management. The current FISH probes failed to detect 1 spitzoid melanoma, 1 fatal metastatic AST case, and the other chromosomally aberrant ASTs in our series, but detected 1 spitzoid melanoma and 1 conventional melanoma. Thus, a comprehensive, genome-wide approach to chromosomal abnormalities offered greater sensitivity and specificity than current FISH probes in identifying spitzoid lesions of uncertain malignant potential in this series.

BRAF and NRAS mutations in spitzoid melanocytic lesions

BRAF mutations are common events in a variety of melanocytic nevi and primary cutaneous melanomas. We have previously found BRAF mutations in 82% of nevi, consisting of congenital, common acquired and dysplastic types, and 33% of primary cutaneous melanomas other than the spitzoid type, similar to other published reports. A small number of studies have evaluated Spitz nevi and have failed to detect any lesions possessing a BRAF mutation. Only one study included categories of atypical Spitz nevus and borderline lesions suspected to be spitzoid melanomas, along with classic Spitz nevi and spitzoid melanomas. We examined a spectrum of spitzoid lesions that included 48 Spitz nevi, some with atypical features, seven atypical (borderline) Spitz tumors, and 13 spitzoid melanomas. BRAF mutations were detected in 12 of 68 spitzoid lesions, of which two were spitzoid melanomas and 10 were Spitz nevi. Five of the 10 Spitz nevi with BRAF mutations were altered by more than usual cytologic atypia and/or architectural atypia overlapping with dysplastic nevi, or irritation/inflammation; one desmoplastic Spitz nevus had a BRAF mutation. These results indicate that a small subset of Spitz nevi, some with atypical histologic features, possess BRAF mutations. Therefore, the BRAF mutational status does not separate all Spitz nevi from spitzoid melanomas and non-Spitz types of melanocytic proliferations, contrary to previous reports.