Human melanoma cell migration along capillary-like structures in vitro: a new dynamic model for studying extravascular migratory metastasis.

In VitroLetterSCOPUS: le.jinfo:eu-repo/semantics/publishe

Detection of Hepatitis B Virus DNA in Pancreas, Kidney and Skin of Two Human Carriers of the Virus

International audienceUsing the Southern blot technique, we have analysed the presence and state of hepatitis B virus (HBV) DNA in non-hepatic tissue from two human HBV carriers. HBV DNA sequences were detected in the pancreas, kidney and skin, demonstrating HBV infection of these organs. Moreover, the restriction DNA patterns were consistent with the integration of these viral sequences into high molecular weight DNA. These results demonstrate that HBV infection is not restricted to the liver

Vessel co-option and angiotropic extravascular migratory metastasis: a continuum of tumour growth and spread?

Two fields of cancer research have emerged dealing with the biology of tumour cells localised to the abluminal vascular surface: vessel co-option (VCo), a non-angiogenic mode of tumour growth and angiotropic extravascular migratory metastasis (EVMM), a non-hematogenous mode of tumour migration and metastasis. VCo is a mechanism by which tumour cells gain access to a blood supply by spreading along existing blood vessels in order to grow locally. Angiotropic EVMM involves “pericytic mimicry” (PM), which is characterised by tumour cells continuously migrating in the place of pericytes distantly along abluminal vascular surfaces. When cancer cells are engaged in PM and EVMM, they migrate along blood vessels beyond the advancing front of the tumour to secondary sites with the formation of regional and distant metastases. In the present perspective, the authors review the current scientific literature, emphasising the analogies between embryogenesis and cancer progression, the re-activation of embryonic signals by “cancer stem cells”, and the important role of laminins and epithelial-mesenchymal-transition. This perspective maintains that VCo and angiotropic EVMM constitute complementary processes and represent a continuum of cancer progression from the primary tumour to metastases and of tumour growth to EVMM, analogous to the embryonic development program

Cutaneous melanoma with brain metastasis: Report of 193 patients with new observations

BACKGROUND: Brain metastasis is a common endpoint in patients suffering from malignant melanoma. However, little is known about factors that predispose to brain metastases. OBJECTIVE: We performed a retrospective clinical and pathological investigation of melanoma patients with brain metastases in order to better characterise this patient population. METHODS: 193 melanoma patients with brain metastasis histologically diagnosed between 1990 and 2015 at the University Hospital Zurich were retrospectively identified and further specified for sex, age at diagnosis and detection of brain metastasis, and localisation. In addition, data were extracted regarding the subtype of primary melanoma, Breslow tumour thickness, Clark Level, mutation status, extent of metastatic spread and history of a second melanoma. RESULTS: We found a significant male predominance (n = 126/193; 65%; p < 0.001). Breslow tumour thickness showed a wide range from 0.2 to 12.0 mm (n = 99; median 2.3 mm). 14 of 101 melanomas (14%) were classified as T1, thereof 11 (79%) were found in men. In 32 of 193 patients (17%), the primary melanoma was unknown. CONCLUSIONS: Of special interest in our series is the high incidence of male predominance (79%) in cases of thin metastasing melanoma (14%), implicating genetic or epigenetic (hormonal) gender differences underlying tumour progression. Additionally, the high percentage of unknown primary melanoma (17%), at least partly representing completely regressed melanomas, indicates the importance of immune surveillance in melanoma progression

Overexpression of malignancy-associated laminins and laminin receptors by angiotropic human melanoma cells in a chick chorioallantoic membrane model.

BACKGROUND: As distinct from intravascular/lymphatic dissemination, extravascular migratory metastasis (EVMM) has been described as a potential additional mechanism of melanoma spread in which tumor cells migrate along the external surfaces of vessels. Angiotropic melanoma cells are linked to the endothelium by a matrix containing laminin. In addition, it has been shown that C16 laminin-derived peptide increases extravascular migration of human green fluorescent protein (GFP) melanoma cells along vessels in a chicken chorioallantoic membrane model (CAM). In this study, we have tested the hypothesis that expression levels of some genes related to lamimin and metastasis are differentially expressed in vascularized angiotropic melanoma areas vs. avascular melanoma areas from the same tumor. DESIGN: C8161 human melanoma cells in a shell-less chick CAM assay were used to study EVMM associated with the presence of vascularized angiotropic melanoma areas. For both high-quality histomorphology and RNA preservation in paraffin-embedded tissue, we used a methanol-based fixative coupled with microwave-assisted rapid tissue processing as previously described. Using laser capture microdissection, angiotropic melanoma areas as well as avascular areas were microdissected. Using quantitative real time polymerase chain reaction (QRT-PCR), six genes have been studied: LAMC2 (laminin gamma2 chain), LAMA4 (laminin alpha4 chain), ITGB1 (integrin beta1), ITGB3 (integrin beta3), RSPA (ribosomal protein), and MMP2 (matrix metallopeptidase 2). QRT-PCR data were normalized to human GAPDH housekeeping gene and values were compared against Human Total RNA. Final results were expressed as percentage of expression. RESULTS: All tumors demonstrated a similar pattern, i.e. EVMM of angiotropic melanoma cells. The microdissected histopathological sections presented both angiotropic areas and avascular areas. All genes were overexpressed in angiotropic melanoma areas vs. avascular melanoma areas, especially LAMC2, LAMA4 and ITGB3 (respectively, 165.18, 208.86, and 483.69%). CONCLUSION: This study shows that several genes related to laminin are overexpressed in angiotropic melanoma areas vs. avascular melanoma areas. Since extravascular migration of melanoma cells along vessels has been demonstrated in the CAM model, taken together these results suggests that some laminins and laminin receptors may play a role in extravascular migratory metastasis. This model may represent a promising strategy to analyze differential gene expression in EVMM.Journal ArticleSCOPUS: ar.jFLWINinfo:eu-repo/semantics/publishe