Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0035412 (rhabdomyosarcoma)
 6,156 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Adoptive immunotherapy of malignant diseases was tried using LAK cells induced from peripheral blood lymphocytes with recombinant IL-2 (TGP-3) and fresh human plasma. The cytotoxicity of autologous and mixed cultured allogeneic LAK cells reached maximum after two weeks, and after 7 to 10 days of incubation, respectively. The necessary dose of IL-2 combined with LAK cells was 1000 or 2000 units for maintenance and enhancement of LAK activity, which did not cause any lethal side effect, i.e., capillary permeability leak syndrome. A clinical effect was observed in cases of carcinomatous pleural effusion of colon cancer, pulmonary metastases from breast cancer and rhabdomyosarcoma, and pulmonary, hepatic and abdominal wall metastases from squamous cell carcinoma of the epipharynx. The only side effect observed was fever. No pathological reaction occurred after frequent injection of allogeneic LAK cells. The most important problem to be solved is how to induce a large amount of LAK cells.
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PMID:[Adoptive immunotherapy of malignant disease using LAK cells]. 326 Apr 66

Tentative results of LAK-cell and whole-body hyperthermia (WBH) were evaluated in 19 children with advanced chemorefractory tumors. LAK-cells were obtained by extracorporeal incubation of peripheral blood lymphocytes: a germ-cell rhabdomyosarcoma was detected in 4, Askin's tumor--2--2, renal cell carcinoma--2 and miscellaneous--7. Autologous LAK-cells were infused twice: on completion of WBH as body temperature fell to as low as (+) 40 deg. C and on day after WBH. The latter was well tolerated. Complete or partial response to thermochemobiotherapy was reported in 8 patients. Overall 5-year survival was 43% (median follow-up--12.6 months).
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PMID:[Use of LAK-cells and systemic chemotherapy with hyperthermia in the management of chemo-resistant tumors]. 2139 24

In present work the role of tumor cell biology upon different conditions of their interaction with the cells of immune system is discussed. The presented data show that it tumor cell biology that in many cases determines tumor antigen recognition and realization of cytotoxic action of killer cells. Here also we discuss own data obtained with the use of experimental tumor models (transplantable MC-rhabdomyosarcoma, B16 melanoma) and human tumors (soft tissue sarcoma, melanoma, breast cancer, ovarian cancer, cervical cancer). It was demonstrated that various tumors have different sensitivity to antitumor action of activated (LAK) and non-activated lymphocytes. Recent studies on the role of tumor cells in expansion and activity of different suppressor cells (MDSC, Treg, Th17, M-2 macrophages, etc.) are overviewed. The role of organ-specificity and interaction of the components of microenvironment (cells of immune system and stroma, tumor cells, endothelial cells, extracellular matrix) are discussed in details. Along with the presentation of modern views on some patterns that characterize the development of drug resistance of different tumors and capabilities of immune system cells to participate in lysis of resistant tumor cells, the authors present their own data illustrating that resistant tumor cells reveal increased sensitivity to LAK. An analysis of the involvement of a number of molecules, lymphocytes, and tumor cells in the phenomenon of elevated sensitivity to LAK action allowed to conclude that tumor cells reveal high sensitivity at the background of decreased E-cadherin expression and increased CD40 expression.
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PMID:Interaction between tumor and immune system: the role of tumor cell biology. 2140 11