P. van den Broek scite author profile

Strains and vectors for protein expression and secretion have been developed in the yeast Yarrowia lipolytica. Host strains were constructed with non-reverting auxotrophic markers, deletions of protease-encoding genes, and carrying a docking platform. To drive transcription, either the synthetic hp4d or the inducible POX2 promoter were used. Protein secretion is either directed by the targeting sequence of the alkaline extracellular protease or the extracellular lipase (LIP2p) signal sequence. We describe a set of vectors based on these promoters, targeting sequences and two URA3 alleles as selection markers. The wild-type URA3 allele, ura3d1, was used for single-copy integration and a mutant URA3 allele, ura3d4, was used to select for multi-copy integration into the genome. These vectors were used to express the Y. lipolytica extracellular lipase LIP2p and the Aspergillus oryzae leucine amino peptidase II. Lipase production under the control of the hp4d promoter by a strain containing a single copy reached 1000 U ml(-1) in shake flasks, while a strain containing multiple integrations reached 2000 U ml(-1) in shake flasks, 11500 U ml(-1) in batch and 90500 U ml(-1) in fed batch. Leucine amino peptidase production under the control of the hp4d promoter reached 320 mU ml(-1) in batch with a mono-copy lapA integrant and 28000 mU ml(-1) in fed batch with a multi-copy transformant.

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Protein expression and secretion in the yeast

Nicaud

Madzak

Broek

et al. 2002

FEMS Yeast Research

116

104

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Osteoprotegerin production by human intestinal epithelial cells: a potential regulator of mucosal immune responses

Vidal¹,

Serrant²,

Schlosser³

et al. 2004

American Journal of Physiology-Gastrointestinal and Liver Physi

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Receptor activator of NF-κB (RANK) and its ligand (RANKL) are important members of the TNF receptor (TNFR) and TNF superfamilies, respectively. RANK is expressed on osteoclasts, T-lymphocytes, and dendritic cells, and its ligation with RANKL leads to cellular activation. However, another member of the TNFR family, osteoprotegerin (OPG), acts as a decoy receptor, binding to RANKL and preventing its interaction with RANK. Furthermore, OPG also binds TNF-related apoptosis-inducing ligand (TRAIL), an important regulator of cell survival. OPG is therefore an important regulator of bone metabolism and immune responses. Although intestinal epithelial cells (IEC) express some members of the TNF/TNFR superfamilies, the roles of OPG and RANKL in the intestinal mucosa has not been investigated. Here, we report that various human IEC lines constitutively express OPG mRNA and protein as well as mRNA for RANKL. Furthermore, human colonic epithelium constitutively expressed OPG, and this expression was increased in inflamed tissue. All of the IEC lines tested released OPG into the culture supernatant under standard culture conditions. Whereas TNF-α increased OPG protein secretion by HT29 cells, the cytokines IL-1β and IFN-γ had little, if any, effect. Furthermore, the culture supernatant from untreated HT29 cells abrogated TRAIL-induced inhibition of Jurkat T-cell proliferation and inhibited osteoclast activity in an in vitro model of bone resorption. Taken together, our data indicate that OPG is constitutively produced by IEC, could be upregulated by TNF-α, and is biologically active. Thus IEC-derived OPG may represent an important mucosal immunoregulatory factor and may be involved in bone physiology.

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The base-catalysed cyclisations of 1,19-dideoxybiladienes-ac

Dolphin¹,

Johnson²,

Leng³

et al. 1966

J. Chem. Soc., C

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Osteoprotegerin in Human Milk: A Potential Role in the Regulation of Bone Metabolism and Immune Development

et al. 2004

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P. van den Broek

Protein expression and secretion in the yeastYarrowia lipolytica

Protein expression and secretion in the yeast

Osteoprotegerin production by human intestinal epithelial cells: a potential regulator of mucosal immune responses

The base-catalysed cyclisations of 1,19-dideoxybiladienes-ac

Osteoprotegerin in Human Milk: A Potential Role in the Regulation of Bone Metabolism and Immune Development

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