Coexistence of spindle cell lipoma and ordinary lipoma.

We report a patient with a spindle cell lipoma on the nape and three ordinary lipomas on the abdomen and extremities. The coexistence of spindle cell lipoma and ordinary lipoma in a single patient is rare. Abundant CD34-positive spindle cells and mast cells were found in the spindle cell lipoma, but in the ordinary lipomas, only a small number of CD34-positive spindle cells were found in the interstitial connective tissue and no mast cells were seen. Because mast cells are known to stimulate mesenchymal cell proliferation and collagen production, mast cell infiltration may be a trigger for the proliferation of CD34-positive spindle cells, leading to the conversion of ordinary lipoma into spindle cell lipoma.

Potent effector function of tumor-sensitized L-selectin(low) T cells against subcutaneous tumors requires LFA-1 co-stimulation.

OBJECTIVE: Animal tumor models have demonstrated that adoptive transfer of tumor-draining lymph node (TDLN) T lymphocytes can cure established tumors in many anatomic sites. However, subcutaneous tumors are relatively refractory and have required maximally tolerated doses of cells. The goals of this study were to determine whether a subset of TDLN T lymphocytes varying in expression of the cell adhesion molecule L-selectin (CD62L) had augmented therapeutic efficacy and to determine the co-stimulatory requirements for trafficking and anti-tumor effector function. STUDY DESIGN: TDLNs were recovered from mice bearing progressive MCA 205 fibrosarcomas, and the T lymphocytes were segregated into CD62L(low) and CD62L(high) subsets and activated ex vivo with anti-CD3 mAb and IL-2. Mice bearing established subcutaneous MCA 205 tumors were treated with activated T cell subsets and in some experiments with additional mAb against cell adhesion molecules. RESULTS: Adoptive transfer of as few as 5 x 10(6) activated cells cured mice bearing 3-day subcutaneous MCA 205 tumors initiated with 6 x 10(6) cells, and the tumors demonstrated a dense infiltrate of CD62L(low) cells. In marked contrast, adoptive transfer of 10 times as many T cells derived from the reciprocal CD62L(high) compartment had no effect on tumor growth. The effector function of the CD62L(low) T cells was clearly dependent on co-stimulation through the cell adhesion molecule LFA-1, because anti-LFA-1 mAb completely abrogated the anti-tumor reactivity of the transferred cells against subcutaneous tumors and inhibited tumor infiltration. In contrast, blockade of ICAM-1, VLA-4, or VCAM-1 had no inhibitory effect on the anti-tumor function. CONCLUSION: These studies demonstrate the high therapeutic activity of the CD62L(low) subset of tumor-draining LN T cells against subcutaneous tumors, a relatively refractory site, and confirm the essential role of LFA-1 for effector T cell function. SIGNIFICANCE: Identification of the phenotype and requirements for effector function of T lymphocytes sensitized to tumor antigens has implications for clinical trials of adoptive immunotherapy for head and neck carcinoma using a similar approach.

Immunoreactivity for the human hematopoietic progenitor cell antigen (CD34) in lipomatous tumors.

The human hematopoietic progenitor cell antigen (CD34) recently was shown to react with a variety of nonhematopoietic tissues and their tumors, including vascular endothelium, dendritic interstitial fibroblastic cells, and endoneurial cells as well as with the neoplastic cells in a variety of mesenchymal neoplasms of unknown etiology, such as Kaposi's sarcoma, dermatofibrosarcoma protuberans, epithelioid sarcoma, gastrointestinal stromal tumors, and solitary fibrous tumors. Additionally, it has been claimed that normal adipocytes may also react with this antibody. We studied a series of 90 lipomatous lesions to examine the pattern of immunoreactivity of the CD34 antigen in adipose tissue neoplasms. The study included 14 lipomas, 19 angiolipomas, 4 atypical lipomas, 18 spindle cell lipomas, 3 renal angiomyolipomas, 1 intramuscular lipoma, and 31 liposarcomas. Immunostains identified a network of CD34+ spindle cells admixed with the adipose tissue elements in all cases of lipoma, angiolipoma, angiomyolipoma, intramuscular lipoma, and well-differentiated lipoma-like liposarcoma. Additionally, the spindle cell component in all cases of spindle cell lipoma were strongly positive for this antigen. Atypical, stellate spindle cells and multinucleated "floret" cells in all cases of atypical lipoma as well as in six of 12 cases of well-differentiated lipoma-like liposarcoma of deep soft tissue were also positive for CD34. Scattered spindle cells in all cases of myxoid liposarcoma and in one case of round cell liposarcoma, as well as the sarcomatous component in one case of "dedifferentiated" liposarcoma, were strongly positive for this antigen. The round cells in myxoid liposarcoma and round cell liposarcoma, the signet-ring and multivacuolated lipoblasts in well-differentiated liposarcoma, and the pleomorphic atypical cells in pleomorphic liposarcoma were uniformly negative. The results of this study appear to indicate that lipomatous tumors may harbor a population of CD34+ interstitial dendritic spindle cells. Overgrowth or clonal expansion of this dendritic cell subpopulation may account for the development of spindle cell lipomas and for the spindle cell component in some cases of "dedifferentiated" liposarcoma.