The addition of nine residues at the C‐terminus of human prolactin drastically alters its biological properties

Goffin, Vincent; Struman, Ingrid; Goormaghtigh, Erik; Martial, Joseph

doi:10.1111/j.1432-1033.1993.tb17945.x

Cited by 18 publications

(9 citation statements)

References 39 publications

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“…As point mutations can affect regular secondary structures and/or global protein folding, we assessed the ␣-helical content of S179D-hPRL by circular dichroism as previously reported for other hPRL analogs (31,33,40). The profile obtained for S179D-hPRL was almost identical to that obtained with WT hPRL (Fig.…”

Section: Biochemical Propertiesmentioning

confidence: 75%

S179D-Human PRL, a Pseudophosphorylated Human PRL Analog, Is an Agonist and Not an Antagonist

et al. 2001

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For many years, our group has been involved in the development of human PRL antagonists. In two recent publications, S179D-human PRL, a human PRL analog designed to mimic a putative S179-phosphorylated human PRL, was reported to be a highly potent antagonist of human PRL-induced proliferation and signaling in rat Nb2 cells. We prepared this analog with the aim of testing it in various bioassays involving the homologous, human PRL receptor. In our hands, S179D-human PRL was able to stimulate 1) the proliferation of rat Nb2 cells and of human mammary tumor epithelial cells (T-47D), 2) transcriptional activation of the lactogenic hormone response element-luciferase reporter gene, and 3) activation of the Janus kinase/signal transducer and activator of transcription and MAPK pathways. Using the previously characterized antagonist G129R-human PRL as a control, we failed to observe any evidence for antagonism of S179D-human PRL toward any of the human PRL-induced effects analyzed, including cell proliferation, transcriptional activation, and signaling. In conclusion, our data argue that S179D-human PRL is an agonist displaying slightly reduced affinity and activity due to local alteration of receptor binding site 1, and that the antagonistic properties previously attributed to S179D-human PRL cannot be confirmed in any of the assays analyzed in this study. (Endocrinology 142: 3950 -3963, 2001)

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Section: Biochemical Propertiesmentioning

confidence: 75%

S179D-Human PRL, a Pseudophosphorylated Human PRL Analog, Is an Agonist and Not an Antagonist

et al. 2001

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“…Although the fusion of a small peptide to the carboxylterminus of these ligands was detrimental to their activities in vitro, consistent with the observations of others (Goffin et al 1993), a more favorable PK profile could compensate for their reduced potency, so we examined the PKs of both SA20-hPRL and hPRL-SA20 in mice. The PK behavior of SA20-hPRL and hPRL-SA20 was very similar, indicating that SA20 retains its ability to interact with serum albumin when fused to the amino-or carboxyl-terminus.…”

Section: Discussionmentioning

confidence: 63%

Improving the pharmacokinetics/pharmacodynamics of prolactin, GH, and their antagonists by fusion to a synthetic albumin-binding peptide

Langenheim¹,

Chen²

2009

Journal of Endocrinology

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To prolong the circulation half-life of human prolactin (hPRL), human GH (hGH), and their competitive antagonists, hPRL-G129R and hGH-G120R, we examined the effects of fusing a serum albumin-binding peptide (SA20) to their amino-or carboxyl-terminus. Fusion of the SA20 peptide to the amino-terminus of the ligands was less detrimental upon their ability to induce or inhibit signal transduction and cell proliferation in vitro than fusion to the carboxyl-terminus. Pharmacokinetic (PK) studies in mice revealed that the halflife of SA20-hPRL and SA20-hGH was prolonged and their clearance was reduced in comparison with hPRL and hGH. Pharmacodynamic (PD) studies in 8-week-old female mice revealed that lobuloalveolar development in mammary glands was greater in all three groups (daily, every 2 days, or every third day over a 12-day period) of mice treated with SA20-hPRL (4 mg/kg) compared with hPRL (3 . 59 mg/kg). Similarly, daily administration (i.p.) of SA20-hGH (8 mg/kg) or hGH (7 . 15 mg/kg) to 23-day-old female mice over a 40-day period revealed the superiority of SA20-hGH over hGH as measured by weight gain, body length, and lobuloalveolar development in the mammary glands. These findings indicate that SA20 modification of hPRL, hGH, and their respective antagonists improves their PK/PD properties.

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“…Binding of hPRL mutants to the lactogen receptor was performed as reported earlier (21,26,28). Briefly, homogenates from 3 ϫ 10 6 Nb2 cells were incubated for 16 h at 25°C with 30,000 -50,000 cpm 125 IhPRL in the presence of increasing amounts of unlabeled native hPRL or hPRL analog (final reaction volume of 0.5 ml).…”

Section: Binding Experimentsmentioning

confidence: 99%

“…Circular Dichroism-hPRL has an ␣-helix content of 45 Ϯ 5% (21,26,28) as determined by circular dichroism. In agreement with the spectrum of native hPRL, all mutants produced in this study displayed the typical curve of all ␣-proteins, with two minima at 222 and 208 nm and a maximum at 195 nm.…”

Section: Structural Characterization Of Hprl Mutantsmentioning

confidence: 99%

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Characterization of Lactogen Receptor-binding Site 1 of Human Prolactin

Kinet

Goffin

Mainfroid

et al. 1996

Journal of Biological Chemistry

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Here we focus on the two other regions that form binding site 1, namely helices 1 and 4. Putative binding residues, selected on the basis of a three-dimensional model of hPRL constructed in this laboratory, were mutated to alanine, and recombinant hPRL mutants produced in Escherichia coli were tested for their ability to bind to the PRLR and to stimulate Nb2 cell proliferation. We thus identified nine single mutations (three in helix 1 and six in helix 4) whose effect was to reduce both binding and mitogenic activity by more than half as compared with wild-type hPRL, indicating the functional involvement of the corresponding residues. Adding these to the three binding determinants identified in loop 1, we now propose a complete picture of PRLRbinding site 1 of hPRL. As we earlier hypothesized, the binding site 1 determinants of hPRL differ from those of human growth hormone, a hPRL homolog.

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The addition of nine residues at the C‐terminus of human prolactin drastically alters its biological properties

Cited by 18 publications

References 39 publications

S179D-Human PRL, a Pseudophosphorylated Human PRL Analog, Is an Agonist and Not an Antagonist

S179D-Human PRL, a Pseudophosphorylated Human PRL Analog, Is an Agonist and Not an Antagonist

Improving the pharmacokinetics/pharmacodynamics of prolactin, GH, and their antagonists by fusion to a synthetic albumin-binding peptide

Characterization of Lactogen Receptor-binding Site 1 of Human Prolactin

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