Anne P. Døskeland scite author profile

Recombinant human phenylalanine hydroxylase (hPAH) was produced in high yields in Escherichia coli using the pET and pMAL expression vectors. In the pMAL system, hPAH was fused through the target sequences of the restriction protease factor Xa (IEGR) or enterokinase (D4K) to the C-terminal end of the highly expressed E. coli maltose-binding protein (MBP). The recombinant hPAH, recovered in soluble forms, revealed a high specific activity even in crude extracts and was detected as a homogeneous band by Western-blot analysis using affinity-purified polyclonal rabbit anti-(rat PAH) antibodies. The enzyme expressed in the pET system was subject to limited proteolysis by host cell proteases and was difficult to purify with a satisfactory yield. By contrast, when expressed as a fusion protein in the pMAL system, hPAH was resistant to cleavage by host cell proteases and was conveniently purified by affinity chromatography on an amylose resin. Catalytically active tetramer-dimer (in equilibrium) forms of the fusion protein were separated from inactive, aggregated forms by size-exclusion h.p.l.c. After cleavage by restriction protease, factor Xa or enterokinase, hPAH was separated from uncleaved fusion protein, MBP and restriction proteases by hydroxylapatite or ion-exchange (DEAE) chromatography. The yield of highly purified hPAH was approx. 10 mg/l of culture. The specific activity of the isolated recombinant enzyme was high (i.e. 1440 nmol of tyrosine.min-1.mg-1 with tetrahydrobiopterin as the cofactor) and its catalytic and physicochemical properties are essentially the same as those reported for the enzyme isolated from human liver. The recombinant enzyme, both as a fusion protein and as purified full-length hPAH, was phosphorylated in vitro by the catalytic subunit of cyclic AMP-dependent protein kinase. The phosphorylated from of hPAH electrophoretically displayed an apparently higher molecular mass (approximately 51 kDa) than the non-phosphorylated (approximately 50 kDa) form.

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Phosphorylation of recombinant human phenylalanine hydroxylase: effect on catalytic activity, substrate activation and protection against non-specific cleavage of the fusion protein by restriction protease

Døskeland

Martı́nez

Knappskog

et al. 1996

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The phosphorylation of human phenylalanine hydroxylase by cyclic AMP-dependent protein kinase was studied using recombinant enzyme expressed as a fusion protein in the pMAL system of Escherichia coli. Using the target sequence of the restriction protease enterokinase (Asp4-Lys) as the linker peptide, 100% full-length human phenylalanine hydroxylase was obtained on protease cleavage. The fusion protein and human phenylalanine hydroxylase were both phosphorylated at Ser-16 with a stoichiometry of 1 mol of Pi/mol of subunit. The rate of phosphorylation of human phenylalanine hydroxylase was inhibited about 40% by the cofactor tetrahydrobiopterin, and this inhibition was completely prevented by the simultaneous presence of L-phenylalanine (i.e. at turnover conditions). Phosphorylated enzyme revealed a 1.6-fold higher specific activity than the non-phosphorylated enzyme form, and it also required a lower concentration of L-Phe for substrate activation. Pre-incubation with L-Phe increased the specific activity of phenylalanine hydroxylase 2- to 4-fold, L-Phe acting with positive cooperativity. Thus, the basic catalytic and regulatory properties of recombinant human phenylalanine hydroxylase, as well as those observed for the enzyme as a fusion protein, are similar to those previously reported for the rat liver enzyme. When the target sequence of the restriction protease factor Xa (Ile-Glu-Gly-Arg) was used as the linker between maltose-binding protein and human phenylalanine hydroxylase, cleavage of the fusion protein gave a mixture of full-length hydroxylase and a truncated form of the enzyme lacking the 13 N-terminal residues. Interestingly, phosphorylation of the fusion protein, before exposure to factor Xa, almost completely protected against secondary cleavage by this restriction protease at Arg-13 of phenylalanine hydroxylase.

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Release and bioactivity of bone morphogenetic protein-2 are affected by scaffold binding techniques in vitro and in vivo

Suliman

Xing

et al. 2015

Journal of Controlled Release

105

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A low dose of 1μg rhBMP-2 was immobilised by four different functionalising techniques on recently developed poly(l-lactide)-co-(ε-caprolactone) [(poly(LLA-co-CL)] scaffolds. It was either (i) physisorbed on unmodified scaffolds [PHY], (ii) physisorbed onto scaffolds modified with nanodiamond particles [nDP-PHY], (iii) covalently linked onto nDPs that were used to modify the scaffolds [nDP-COV] or (iv) encapsulated in microspheres distributed on the scaffolds [MICS]. Release kinetics of BMP-2 from the different scaffolds was quantified using targeted mass spectrometry for up to 70days. PHY scaffolds had an initial burst of release while MICS showed a gradual and sustained increase in release. In contrast, NDP-PHY and nDP-COV scaffolds showed no significant release, although nDP-PHY scaffolds maintained bioactivity of BMP-2. Human mesenchymal stem cells cultured in vitro showed upregulated BMP-2 and osteocalcin gene expression at both week 1 and week 3 in the MICS and nDP-PHY scaffold groups. These groups also demonstrated the highest BMP-2 extracellular protein levels as assessed by ELISA, and mineralization confirmed by Alizarin red. Cells grown on the PHY scaffolds in vitro expressed collagen type 1 alpha 2 early but the scaffold could not sustain rhBMP-2 release to express mineralization. After 4weeks post-implantation using a rat mandible critical-sized defect model, micro-CT and Masson trichrome results showed accelerated bone regeneration in the PHY, nDP-PHY and MICS groups. The results demonstrate that PHY scaffolds may not be desirable for clinical use, since similar osteogenic potential was not seen under both in vitro and in vivo conditions, in contrast to nDP-PHY and MICS groups, where continuous low doses of BMP-2 induced satisfactory bone regeneration in both conditions. The nDP-PHY scaffolds used here in critical-sized bone defects for the first time appear to have promise compared to growth factors adsorbed onto a polymer alone and the short distance effect prevents adverse systemic side effects.

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The proteasome inhibitors bortezomib and PR‐171 have antiproliferative and proapoptotic effects on primary human acute myeloid leukaemia cells

et al. 2007

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SummaryProteasome inhibitors represent a new class of antineoplastic drugs that are considered in the treatment of haematological malignancies. We compared the effects of the reversible proteasome inhibitor bortezomib (Velcade®) and the epoxomicin derivative PR‐171, an irreversible inhibitor, on primary human acute myeloid leukaemia (AML) cells. Both drugs inhibited autocrine‐ and cytokine‐dependent proliferation of primary AML blasts when tested at nanomolar levels (0·1–100 nmol/l). The antiproliferative effect was independent of basal chymotrypsin‐like proteasome activity (showing a 20‐fold variation between patients), genetic abnormalities, morphological differentiation and CD34 expression when testing a large group of consecutive patients (n = 54). The effect was retained in cocultures with bone marrow stromal cells. In addition, both drugs enhanced apoptosis. The effect of PR‐171 could be detected at lower concentrations than for bortezomib, especially when testing the influence on clonogenic AML cell proliferation. Both drugs had divergent effects on AML cells’ constitutive cytokine release. Furthermore, both drugs caused a decrease in proliferation and viability when tested in combination with idarubicin or cytarabine. An antiproliferative effect on primary human acute lymphoblastic leukaemia cells was also detected. We conclude that nanomolar levels of the proteasome inhibitors tested had dose‐dependent antiproliferative and proapoptotic effects on primary AML cells in vitro.

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Quantitative proteomic analyses of CD4+ and CD8+ T cells reveal differentially expressed proteins in multiple sclerosis patients and healthy controls

et al. 2019

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Background Multiple sclerosis (MS) is an autoimmune, neuroinflammatory disease, with an unclear etiology. However, T cells play a central role in the pathogenesis by crossing the blood–brain-barrier, leading to inflammation of the central nervous system and demyelination of the protective sheath surrounding the nerve fibers. MS has a complex inheritance pattern, and several studies indicate that gene interactions with environmental factors contribute to disease onset. Methods In the current study, we evaluated T cell dysregulation at the protein level using electrospray liquid chromatography–tandem mass spectrometry to get novel insights into immune-cell processes in MS. We have analyzed the proteomic profiles of CD4 + and CD8 + T cells purified from whole blood from 13 newly diagnosed, treatment-naive female patients with relapsing–remitting MS and 14 age- and sex-matched healthy controls. Results An overall higher protein abundance was observed in both CD4 + and CD8 + T cells from MS patients when compared to healthy controls. The differentially expressed proteins were enriched for T-cell specific activation pathways, especially CTLA4 and CD28 signaling in CD4 + T cells. When selectively analyzing proteins expressed from the genes most proximal to > 200 non-HLA MS susceptibility polymorphisms, we observed differential expression of eight proteins in T cells between MS patients and healthy controls, and there was a correlation between the genotype at three MS genetic risk loci and protein expressed from proximal genes. Conclusion Our study provides evidence for proteomic differences in T cells from relapsing–remitting MS patients compared to healthy controls and also identifies dysregulation of proteins encoded from MS susceptibility genes. Electronic supplementary material The online version of this article (10.1186/s12014-019-9241-5) contains supplementary material, which is available to authorized users.

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