A.D. Kuffer scite author profile

A.D. Kuffer

5Publications

65Citation Statements Received

61Citation Statements Given

How they've been cited

131

How they cite others

193

Affiliations

Prince of Wales Hospital, Monash University, University Hospital of Lausanne

Publications

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Identification of a Specific Inhibitor of Nonsuppressible Insulin-Like Activity in a Partially Purified Human Serum Fraction*

Herington

Kuffer

1981

Endocrinology

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During purification of low molecular weight (MW) nonsuppressible insulin-like activity (NSILA) from Cohn fraction IV-I of human serum, a fraction from Sephadex G-75 chromatography was gel filtered on Biogel P-30 in 1% formic acid. NSILA activity was all eluted in "fraction III" (Kav 0.4-0.9) with a recovery (compared to applied activity of 216 +/- 21% (mean +/- SE, n = 6). To test the possibility that this increase was due to removal of an inhibitor, a series of mixing experiments was performed. Total inhibition of fraction III occurred on mixing with fraction II (Kav 0.1-0.4), which had no intrinsic activity of its own. Fraction I (Kav 0.01) had no effects. Inhibition by fraction II was dose dependent, nondialysable, partially heat sensitive (boiling, 15 min) and totally destroyed by trypsin. Estimations of the MW of the inhibitor are 16,000-18,000. The inhibitor was shown to be specific for low MW NSILA by inhibiting the stimulatory effects of an acid-ethanol extract of human serum but not insulin or the acid-stable high MW form of nonsuppressible insulin-like activity. Inhibition of NSILA was observed in both rat adipocyte (insulin-like) and costal cartilage (sulfation) bioassays. Lineweaver-Burk analysis suggested the inhibitor acted in a competitive fashion. These studies have demonstrated the presence of a specific inhibitor of NSILA in Cohn fraction UV-I of normal human serum. The identity and physiological role of the inhibitor are as yet unknown.

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Recent advances in the biochemistry and physiology of the insulin-like growth factor/somatomedin family

Herington

Cornell

Kuffer

1983

International Journal of Biochemistry

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Phospholipid metabolism in murine muscular dystrophy

Kwok

Kuffer

Tang

et al. 1976

Experimental Neurology

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Insulin-like growth factor characteristics of an acidic non-suppressible insulin-like activity

Herington¹,

Kuffer²

1984

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The biological activities of an acidic form of non-suppressible insulin-like activity (ILA pI 4.8) have been studied. ILA pI 4.8 was isolated from Cohn fraction IV-1 of human serum by pH 5.5 ion-exchange chromatography on SP-Sephadex. Carrier-bound ILA was eluted at pH 9.7 and then sequentially gel chromatographed in 1% formic acid on Sephadex G-75 and Bio-Gel P-30. The low-Mr (7000) active material was subjected to flat bed isoelectric focusing. Overall recovery was 87 munit of insulin equivalents/100 g of Cohn fraction IV-1, with a specific activity in the range 4-10 munit/mg of protein, representing a purity of 1-6%. This material has been tested in a variety of insulin-like growth factor (IGF)/somatomedin assay systems. It stimulated, in a dose-related manner, [14C]glucose conversion into lipid by isolated rat adipocytes, 35SO4(2-) incorporation into weanling rat costal cartilage and [3H]thymidine incorporation into DNA of cultured human fibroblasts. Like IGF-I and -II, ILA pI 4.8 was able to inhibit degradation of 125I-insulin by crude homogenates of rat liver. In addition, the biological activity of ILA pI 4.8 was completely suppressible by a recently described inhibitor of IGF-I and IGF-II. ILA pI 4.8 was able to compete, in a parallel manner, with 125I-IGF-I and 125I-IGF-II and, at higher doses, with 125I-insulin in a placental radioreceptor assay. No cross-reactivity was seen in a radioimmunoassay for IGF-I and -II C-peptides, but at higher concentrations parallel displacement was observed in a somatomedin C/IGF-I radioimmunoassay using two different antisera. These data indicate that ILA pI 4.8 does possess many of the biological activities previously reported for the IGFs. Since ILA pI 4.8 does occur naturally in serum, it would appear reasonable to tentatively include it as one of the IGF/somatomedin family.

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Proteolytic conversion of insulin-like growth factors to an acidic form(s)

Kuffer¹,

Herington²

1984

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The relative amounts of the various forms of bioassayable insulin-like growth factors (IGF) isolated from human serum or serum fraction Cohn IV-1 depend on the purification procedure. With acid gel filtration or acid/ethanol extraction as the initial step, IGF-II (pI approximately 6.5) was the most abundant (40-70%) followed by somatomedin A (pI approximately 7.4; 15-23%), an acidic form of insulin-like activity (ILA pI 4.8) (13-21%) and IGF-I (pI approximately 8.5; 5-27%). If, however, pH 5.5 ion-exchange chromatography on SP-Sephadex was used prior to acid gel filtration, the acidic pI 4.8 form was the major (greater than 90%) species recovered and was accompanied by a quantitative loss of the other IGF species. This suggested a possible conversion of IGF-I, somatomedin A and/or IGF-II to the acidic ILA pI 4.8 form(s) during the SP-Sephadex procedure. Further experiments indicated that differences in the yields of ILA pI 4.8 were not due simply to differences in the initial pH conditions of the various methods (i.e. acid versus neutral), although exposure to pH 9.7 (a pH experienced during elution of IGF activity from the SP-Sephadex) did appear to play a role. The involvement of the carrier protein in the conversion process was tested by subjecting carrier-free IGF-I and IGF-II to the SP-Sephadex procedure. No conversion of the free forms to ILA pI 4.8 occurred. To examine the possible role of proteinase in the conversion of IGFs to ILA pI 4.8, SP-Sephadex chromatography was performed in the presence of a broad spectrum proteinase inhibitor. The IGF distribution pattern obtained closely resembled the 'normal' pattern seen with acid gel filtration, indicating that proteinase inactivation had prevented conversion to ILA pI 4.8. These data suggest that proteolytic conversion of IGF-I, somatomedin A and IGF-II to more acidic ILA pI 4.8 form(s) (i) occurs during SP-Sephadex chromatography, (ii) is not prevented simply by prior acid exposure, and (iii) takes place only when IGF-I and -II are in their high-Mr carrier-bound forms. Since IGF-I and IGF-II, although homologous, have unique amino acid sequences, the conversion of both IGFs implies that at least two acidic ILA forms exist. Nevertheless, because ILA pI 4.8 retains the full spectrum of IGF bioactivities in vitro, and significant quantities are present in normal human serum (21%), it would suggest that proteolytic conversion of IGF-I, somatomedin A and IGF-II to ILA pI 4.8 in vivo may be a physiologically significant event.

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A.D. Kuffer

Identification of a Specific Inhibitor of Nonsuppressible Insulin-Like Activity in a Partially Purified Human Serum Fraction*

Recent advances in the biochemistry and physiology of the insulin-like growth factor/somatomedin family

Phospholipid metabolism in murine muscular dystrophy

Insulin-like growth factor characteristics of an acidic non-suppressible insulin-like activity

Proteolytic conversion of insulin-like growth factors to an acidic form(s)

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