A melanoma patient with macrophage-cancer cell hybrids in the primary tumor, a lymph node metastasis and a brain metastasis.

In 1911 it was proposed that cancer might result from fusion and hybridization between macrophages and cancer cells. Using immunohistochemistry it was determined that essentially all solid tumors expressed macrophage-like molecules on their cell surface. More recently we have used forensic (STR) genetics that allows one to detect DNA from more than one individual in the same sample. By studying biopsies from individuals receiving allogeneic stem cell transplants and later developed solid tumor metastases, we were able to detect both donor and patient DNA sequences suggesting that hybrids were present. Previously we found hybrids in biopsies of a renal cell carcinoma, a melanoma in a brain metastasis and a melanoma in a primary tumor with lymph node metastases. Here we have traced hybrids from a primary melanoma to an axillary lymph node to a brain metastasis. This is the first time that the entire metastatic process has been documented.

Recent Advances in Studies of Skin Color and Skin Cancer.

The relationship between skin color and skin cancer is well established: the less melanin in one's skin the greater the risk for developing skin cancer. This review is in two parts. First, we summarize the current understanding of the cutaneous pigmentary system and trace melanin from its synthesis in the pigment cell melanosomes through its transfer to keratinocytes. We also present new methods for reducing melanin content in hyper-pigmented areas of skin such as solar lentigenes, melasma, and post-inflammatory hyperpigmentation. Second, we present evidence that at least one mechanism for the development of metastatic melanoma and other solid tumors is fusion and hybridization of leucocytes such as macrophages with primary tumor cells. In this scenario, hybrid cells express both the chemotactic motility of the leucocyte and the de-regulated cell division of the tumor cell, causing the cells to migrate a deadly journey to lymph nodes, distant organs, and tissues.

A Melanoma Lymph Node Metastasis with a Donor-Patient Hybrid Genome following Bone Marrow Transplantation: A Second Case of Leucocyte-Tumor Cell Hybridization in Cancer Metastasis.

BACKGROUND: Metastatic disease is the principal cause of mortality in cancer, yet the underlying mechanisms are not fully understood. Macrophage-cancer cell fusion as a cause of metastasis was proposed more than a century ago by German pathologist Prof. Otto Aichel. Since then this theory has been confirmed in numerous animal studies and recently in a patient with metastatic melanoma. METHODS: Here we analyzed tumor DNA from a 51-year-old man who, 8 years following an allogeneic BMT from his brother for treatment of chronic myelogenous leukemia (CML), developed a nodular malignant melanoma on the upper back with spread to an axillary sentinal lymph node. We used laser microdissection to isolate FFPE tumor cells free of leucocytes. They were genotyped using forensic short tandem repeat (STR) length-polymorphisms to distinguish donor and patient genomes. Tumor and pre-transplant blood lymphocyte DNAs were analyzed for donor and patient alleles at 15 autosomal STR loci and the sex chromosomes. RESULTS: DNA analysis of the primary melanoma and the nodal metastasis exhibit alleles at each STR locus that are consistent with both the patient and donor. The doses vary between these samples indicative of the relative amounts of genomic DNA derived from the patient and donor. CONCLUSION: The evidence supports fusion and hybridization between donor and patient cells as the initiator of metastasis in this patient. That this phenomenon has now been seen in a second case suggests that fusion is likely to play a significant role for melanoma and other solid tumor metastasis, perhaps leading to new avenues of treatment for this most problematic disease.