Potentiation of fibroblast growth by nodular sclerosing Hodgkin's disease cell cultures

Cell cultures were established from 8 lymph nodes replaced by nodular sclerosing Hodgkin's disease. Serum-containing and serum-free conditioned media from these cultures potentiated fibroblast growth and were found to be consistently more potent than fibroblast growth factor, 100 ng/ml, every other day. Both a proliferative response and transformation-like growth were observed using BALB/c 3T3 cells, human diploid fibroblasts, and human embryonic fibroblasts as target cells. The Hodgkin's disease growth factor(s) was not produced by fibroblasts or lymphocytes in the Hodgkin's cultures and was most potent when the Hodgkin's cultures had been enriched with Hodgkin's giant cells. Removal of normal macrophages decreased the proliferative activity but did not eliminate it or nonadherent growth of 3T3 cells in agar. Control cultures of 6 nonmalignant lymph nodes, a Lennert's lymphoma, a mixed cellularity Hodgkin's disease lymph node, and a malignant histiocytosis cell line suggested that among lymph node disorders, this feature may be relatively specific for nodular sclerosing Hodgkin's disease.</jats:p

Potentiation of fibroblast growth by nodular sclerosing Hodgkin's disease cell cultures

Abstract Cell cultures were established from 8 lymph nodes replaced by nodular sclerosing Hodgkin's disease. Serum-containing and serum-free conditioned media from these cultures potentiated fibroblast growth and were found to be consistently more potent than fibroblast growth factor, 100 ng/ml, every other day. Both a proliferative response and transformation-like growth were observed using BALB/c 3T3 cells, human diploid fibroblasts, and human embryonic fibroblasts as target cells. The Hodgkin's disease growth factor(s) was not produced by fibroblasts or lymphocytes in the Hodgkin's cultures and was most potent when the Hodgkin's cultures had been enriched with Hodgkin's giant cells. Removal of normal macrophages decreased the proliferative activity but did not eliminate it or nonadherent growth of 3T3 cells in agar. Control cultures of 6 nonmalignant lymph nodes, a Lennert's lymphoma, a mixed cellularity Hodgkin's disease lymph node, and a malignant histiocytosis cell line suggested that among lymph node disorders, this feature may be relatively specific for nodular sclerosing Hodgkin's disease.</jats:p

Interleukin-4 is an autocrine growth factor secreted by the L-428 Reed- Sternberg cell

Recent evidence indicates that Reed-Sternberg (RS) cells from many cases of Hodgkin's disease have features of activated lymphocytes and that lymphokines from activated lymphocytes induce proliferation of L- 428 RS cells. It is shown here that a lymphokine similar to a lymphokine secreted by activated lymphocytes is secreted by L-428 cells. This lymphokine has a molecular weight approximately equal to 68,000 daltons, identical to glycosylated recombinant interleukin-4 (rIL-4), and cross-reacts with monoclonal anti-IL-4 in Western immunoblotting. This Hodgkin's cell growth factor (HCGF) is 100% neutralized by polyclonal anti-IL-4 antibodies and competes for the IL- 4 receptor. After acid-elution, the L-428 RS cell has been shown to have 3,396 +/- 120 high-affinity receptor sites/cell. HCGF competes with rIL-4 for this receptor and L-428 cells contain mRNA for IL-4. Although all evidence indicates that IL-4 is an important secreted autocrine growth factor for L-428 RS cells, anti-IL-4 has no effect on the sustained serum-free growth of these Hodgkin's cells, suggesting that either the IL-4 receptor and the IL-4 receptor-growth factor complex are protected from antibody inhibition or other mechanisms are responsible for the sustained proliferation of L-428 RS cells.</jats:p

Interleukin-4 is an autocrine growth factor secreted by the L-428 Reed- Sternberg cell

Abstract Recent evidence indicates that Reed-Sternberg (RS) cells from many cases of Hodgkin's disease have features of activated lymphocytes and that lymphokines from activated lymphocytes induce proliferation of L- 428 RS cells. It is shown here that a lymphokine similar to a lymphokine secreted by activated lymphocytes is secreted by L-428 cells. This lymphokine has a molecular weight approximately equal to 68,000 daltons, identical to glycosylated recombinant interleukin-4 (rIL-4), and cross-reacts with monoclonal anti-IL-4 in Western immunoblotting. This Hodgkin's cell growth factor (HCGF) is 100% neutralized by polyclonal anti-IL-4 antibodies and competes for the IL- 4 receptor. After acid-elution, the L-428 RS cell has been shown to have 3,396 +/- 120 high-affinity receptor sites/cell. HCGF competes with rIL-4 for this receptor and L-428 cells contain mRNA for IL-4. Although all evidence indicates that IL-4 is an important secreted autocrine growth factor for L-428 RS cells, anti-IL-4 has no effect on the sustained serum-free growth of these Hodgkin's cells, suggesting that either the IL-4 receptor and the IL-4 receptor-growth factor complex are protected from antibody inhibition or other mechanisms are responsible for the sustained proliferation of L-428 RS cells.</jats:p

Production of monoclonal antibodies that detect Hodgkin's high molecular weight transforming growth factor-beta

High molecular weight transforming growth factor-beta (TGF beta) is a physiologically active TGF secreted by nodular sclerosing Reed- Sternberg cells. Five monoclonal murine antibodies were prepared that distinguished Hodgkin's TGF beta from platelet-derived TGF beta using an enzyme-linked immunosorbent assay, neutralization of biologic activity, and Western blotting. These monoclonal antibodies directed at unique antigenic determinants (epitopes) of Hodgkin's TGF beta will allow further characterization of the role of Hodgkin's TGF beta in Hodgkin's disease and related entities.</jats:p