Nature. revealed a switch of serum cytokines from a T helper-2 Verteporfin to a pro-inflammatory T helper-1 cell profile. Apart from B cell elimination and decline in gammaglobulin levels, no grade 3/4 toxicity related to treatment was observed. Data provide the first clinical evidence that targeting the minor subset of CD20+ melanoma sustaining cells produces regression of chemotherapy-refractory melanoma and highlight the potency of selective cancer cell targeting in the treatment of melanoma. Keywords: cancer stem cell, melanoma, CD20, rituximab INTRODUCTION Current regimens in cancer therapy attempt to eliminate all malignant cells of a tumor lesion; the approach is based on the assumption that every cancer cell has equal malignant capacities. The contrary paradigm that an established tumor lesion is hierarchically organized is supported by the enormous cellular heterogeneity of tumor lesions with a minority of tumor cells, but not a random cancer cell, which populates the tumor cell mass, initiates tumor growth and drives progression [1]. Cancer initiating cells renew themselves, are more resistant to Verteporfin chemo- and radiotherapy, stay quiescent for long time, and drift to distant sites to initiate metastases and relapse after treatment [2]. For instance, metastatic relapse of melanoma can occur more than a decade after curative surgical treatment of the primary lesion; this phenomenon is thought to be due to the same cancer initiating cell that drives cancer progression. Although cancer stem cells have been experimentally proven for a variety of solid tumors and leukemia by their functional capacities, they do not share a common marker. In the melanoma CD20 was first reported to be expressed on those cells [3]; other reports showed ABCB5 [4], CD271 [5] and other markers depending on the assay used to test for cancer stem capacities. These tumor-initiating cells may be variable in number and must not necessarily be rare in the case of melanomas [6, 7]. Moreover, Verteporfin melanoma cells exhibit a remarkable plasticity since isolated melanoma cells of different phenotypes can initiate new tumor lesions by asymmetric cell divisions when transplanted under appropriate conditions. Once established, however, a minor subset of melanoma cells LTBP1 seems to maintain tumor progression. A major implication thereof is that specific elimination of the minor side population with tumor progression capacities may be sufficient to shrink the tumor in the long term. The assumption is sustained by mathematical models implying that successful tumor therapy requires eradication of those stem cells to produce complete clinical response [8]. A strong rationale for selective cancer cell elimination in melanoma therapy was most recently provided by the observation that targeted elimination of the less than 2% subset of CD20+ Verteporfin melanoma cells in a transplantation model Verteporfin can lastingly eradicate the tumor lesion [9, 10]. While those pre-clinical data imply CD20+ melanoma cells as the major driver of melanoma progression, we here firstly report complete remission of melanoma upon targeting of the CD20+ subset of melanoma cells by the CD20-specific therapeutic antibody rituximab in off-label use in a patient with advanced metastatic melanoma. RESULTS Case Report The patient, a 74-aged Caucasian male, received a diagnosis of stage IIIB (AJCC) ulcerated, acro-lentiginous malignant melanoma on the left heel with a tumor thickness of 2.0 mm in May 2010. Surgical tumor excision was conducted with a 3 cm margin. Inguinal lymph nodes were infiltrated with tumor cells, whereas popliteal lymph nodes were found to be free of tumor cells by lymph node scintigraphy and sentinel lymph node biopsy. Tumor cells exhibited wild-type alleles of BRAF and c-Kit as revealed by RT-PCR. The patient received adjuvant therapy with interferon-alpha (3 mio. IU s.c. three times a week) from August to October 2010. Left inguinal lymphadenopathy enforced lymphadenectomy in November 2010 with extirpation of 5 lymph nodes; three of them with metastatic infiltrations, one of which extended beyond the lymph node capsule. In February 2011, the patient progressed into AJCC stage IV (M1a) with disseminated lymph node metastases and multiple widespread cutaneous.