ISSN:
1573-7373
Keywords:
glioma
;
growth factor
Source:
Springer Online Journal Archives 1860-2000
Topics:
Medicine
Notes:
Summary We have shown that several human malignant glioma cell lines are stimulated by bacterial lipopolysaccharide (E. coli 0111∶B4, 1 μg/ml) to produce a high molecular weight (〉 200 kD) growth activity for BALB 3T3, clone A31 cells [1, 2]. This glioma-derived growth factor (GDGF-2) acts like a ‘competence’ factor. Malignant glioma cell line D-54 MG constitutively produced GDGF-2, which we have partially characterized from serumfree conditioned culture medium. GDGF-2 is resistant to heat (100° C, 5 min), acidic (pH 2, 2 hr) or reducing (0.5 M 2 ME, 30 min) conditions as well as exposure to RNases; however, it is sensitive to 〉 4 freeze-thaw cycles, alkaline (pH 11, 2 hr) conditions or pre-treatment with proteolytic enzymes. GDGF-2 had a pl of 6.8 determined by preparative isoelectric focusing, bound to DEAE, with elution at 35 and 185 mM NaCl and at 43% acetonitrile from a C4 reversed phase column. GDGF-2 activity was not neutralized by antibodies to TGFα, TGFβ, PDGF, VEGF or TNFα indicating that it is not immunochemically related to these growth factors. However GDGF-2 co-chromatographed on Superose 12 HPLC (250 × 9 mm; 5% isopropanol, 6 mM CHAPS in PBS) with a substance that suppressed growth of mink lung epithelial cells (Mv1Lu), but not BALB 3T3 cells, and could be neutralized by anti-TGFβ antibodies. GDGF-2 activity eluted from heparin columns in 0.6 M NaCl; thus, it is not a heparin binding growth factor. D-54 MG cell line produced alpha2-macroglobulin (α2M), which is known to bind TGFβ; however, immunoprecipitation of α2M did not deplete TGFβ or GDGF-2 activity. Further, neither GDGF-2 or TGFβ can be dissociated into lower molecular weight active components by chromatography in high salt (2 M NaCl) or 2-ME (0.5 M). GDGF-2 may be a novel autocrine or paracrine mitogen, stimulating mitotic division or interfering with normal cell growth regulation.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF01050212
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