Charles D. Mount

Epidermal growth factor in human milk: Daily production and diurnal variation during early lactation in mothers delivering at term and at premature gestation

Epidermal growth factor is a polypeptide that stimulates proliferation and differentiation of a variety of cell types, including the developing intestinal epithelium; it is the agent in human milk that induces mitosis in human fibroblast culture. We systematically evaluated the EGF content of milk from 20 women delivering prematurely and from 11 women delivering at term. In preterm mothers, the concentration of EGF was 70 +/- 5 ng/ml (mean +/- SEM), with no significant change during seven weeks of lactation. EGF concentration in milk of term mothers was 68 +/- 19 ng/ml (mean +/- SEM). No diurnal variation in the concentration was found. Total EGF content was closely correlated with the volume of milk expressed, suggesting a passive transport from the circulation. These observations confirm that a substantial amount of EGF is present in human milk and that EGF concentrations are not affected by duration of gestation, time of day, or duration of lactation.

Simultaneous Assay of Immunoreactive β-Lipotropin, γ-Lipotropin, and β-Endorphin in Plasma of Normal Human Subjects, Patients with ACTH/Lipotropin Hypersecretory Syndromes, and Patients undergoing Chronic Hemodialysis

: We have studied the relative concentrations of the human immunoreactive (IR) peptides gamma-lipotropin (hgammaLPH, [1-58]hbetaLPH), beta-lipotropin (hbetaLPH), and beta-endorphin (hbetaEND, [61-91]hbetaLPH) using gel exclusion chromatography together with a specific radio-immunoassay (RIA) for hgammaLPH and a RIA that (because hbetaEND is the COOH-terminus of the hbetaLPH molecule) measures both hbetaEND and hbetaLPH on an equimolar basis. In normal subjects, basal plasma IR-hgammaLPH was often undetectable (<12.5 fmol/ml), but ranged up to 21 fmol/ml, and IR-hbetaEND/hbetaLPH was 10.8+/-0.7 fmol/ml; previous studies by others suggest that most of the IR-hbetaEND/hbetaLPH was probably hbetaLPH. Both IR-hgammaLPH and IR-hbetaEND/hbetaLPH were significantly elevated (P < 0.001) in patients undergoing chronic hemodialysis (101.5+/-12.7 and 23.8+/-2.0 fmol/ml, respectively). Their IR-hgammaLPH coeluted with standard hgammaLPH as a single peak, and IR-hbetaEND/hbetaLPH coeluted with hbetaLPH; no distinct peak of IR-hbetaEND was observed. In patients with ACTH/LPH hypersecretion due to Addisons disease, Nelsons syndrome, or ectopic ACTH syndrome, IR-hgammaLPH and IR-hbetaEND/hbetaLPH were both elevated, and IR-hbetaEND/hbetaLPH eluted as two peaks, one coeluting with hbetaLPH and the other with hbetaEND. The molar concentrations of all three peptides were significantly correlated with one another. The lower concentrations of endogenous IR-hbetaEND observed may be due in part to its apparent shorter plasma half-life, as estimated in an Addisons patient given a cortisol infusion. The biologic significance of these three peptides in circulating blood is still unknown. The increased levels of hbetaLPH and hgammaLPH in plasma of patients with chronic renal failure suggest that the kidney may be an important organ for their metabolism.

Characterization of a high-molecular-weight form of epidermal growth factor in an extract of human urine.

We purified from a side fraction of the commercial preparation of urokinase from large volumes of human urine a high-molecular-weight (HMW) form of human epidermal growth factor (hEGF). Sequence analysis of the amino terminus of the intact molecule and of two tryptic fragments and carboxypeptidase Y analysis revealed the molecule to correspond to residues 828-1023 of the hEGF precursor predicted by the nucleotide sequence of human renal hEGF mRNA, with hEGF forming its carboxyl terminus. HMW hEGF bound poorly to concanavalin A-agarose, quite avidly to wheat germ lectin-agarose, and completely to phenyl boronate-agarose, suggesting that it was O-glycosylated. Sephacryl S-200 chromatography of freshly-voided urine revealed mostly hEGF, with smaller amounts of a much higher molecular weight hEGF, but little material that was the size of the HMW hEGF we characterized. The large fragment we characterized presumably is cleaved from the larger form by enzyme(s) present in urine during the collection, storage, and processing of urine. We have confirmed that hEGF is synthesized as a large precursor molecule, as predicted by the nucleotide sequence of hEGF mRNA.

Purification and characterization of epidermal growth factor (β-urogastrone) and epidermal growth factor fragments from large volumes of human urine☆

We purified human epidermal growth factor (hEGF) and hEGF fragments from a benzoic acid precipitate of the materials not adsorbed to silica gel in 330 liters of human urine by a relatively brief, simple, and efficient method employing sequential batch absorption to and stepwise elution from CM-cellulose and DEAE-cellulose, Bio-Gel P-10 chromatography in 50 mM HCl, and three reverse-phase HPLC steps for final resolution and purification of hEGF components. Recovery of hEGF was 29%. Eight apparently homogeneous hEGF components were recovered, each of which had similar activities in a homologous hEGF radioimmunoassay and an EGF radioreceptor assay using human placental membranes. Amino acid composition analysis indicated that there were four pairs of components that represented intact 53-amino acid hEGF, hEGF-(1-52), hEGF-(1-51), and hEGF-(1-50); intact hEGF accounted for one-third of the total materials recovered. Automated Edman degradation of each component for at least 10 cycles revealed a single amino acid sequence identical to that proposed for human beta-urogastrone. Similar immunoreactive hEGF components were observed in similar proportions in freshly voided urine, indicating that they were not artifacts of the purification process. Thus, multiple forms of fully biologically active hEGF (i.e., beta-urogastrone) can be relatively easily and efficiently purified from large volumes of human urine.

Sécrétion ectopique d’ACTH et de peptides apparentés (LPHs, β-endorphine, ≪16 K≫ Mise en évidence d’un précurseur commun

Studies in the experimental mouse pituitary tumor cell line AtT-20/D-16-v have recently shown that ACTH, the lipotropins (β- and γ-LPH), β-endorphin (β-End) and the 16-K fragment are synthesized