John R. Ogez scite author profile

1H NMR has been used to investigate the structural properties of RANTES, a protein from the C-C branch of the chemotactic cytokine family that has a strong chemoattractive effect on monocytes, lymphocytes, and eosinophils. Titration of pH from 5.0 to 2.5 indicates that RANTES is extensively aggregated in solution above pH 4.0. At pH 3.7 the protein is mostly dimeric, although this species does dissociate to the monomer with a Kd of 35 microM. NMR data have been acquired and resonance assignments made for the dimeric species. Structures of the dimer have been generated by distance geometry and simulated annealing calculations that utilized 1956 intramolecular distance restraints, 120 intermolecular distance restraints, 164 dihedral angle restraints, and 68 restraints enforcing 34 hydrogen bonds (17.0 restraints per residue). The structure is well-defined (average root mean square deviation from the average structure of 0.38 +/- 0.06 and 0.53 +/- 0.12 A for backbone heavy atoms of residues 4-66 of the monomer and dimer, respectively). Each monomer consists of a C-terminal alpha-helix packing against a three-stranded antiparallel beta-sheet and two short N-terminal beta-strands; dimerization occurs between the N-terminal regions of each monomer. This quaternary structure is very different from that of the C-X-C chemokines such as interleukin-8 and melanoma growth stimulatory activity but similar to that found for the C-C chemokine macrophage inflammatory factor 1 beta. Distinct structural differences between RANTES and other chemokines at both the tertiary and quaternary level are discussed with regard to the distinct biological functions of the C-C and C-X-C members of this protein family.

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Large Scale, In Situ Isolation of Periplasmic IGF–I from E. coli

Hart¹,

Lester²,

Reifsnyder³

et al. 1994

Nat Biotechnol

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Human insulin-like growth factor I (IGF-I) accumulates in both folded and aggregated forms in the fermentation medium and cellular periplasmic space when expressed in E. coli with an endogenous secretory signal sequence. Due to its heterogeneity in form and location, low yield of IGF-I was obtained using a typical refractile body recovery strategy. To enhance recovery yield, a new procedure was developed to solubilize and extract IGF-I from cells while in fermentation broth. This method, called in situ solubilization, involves addition of chaotrope and reductant to alkaline fermentation broth and provides recovery of about 90% of all IGF-I in an isolated supernatant. To further enhance recovery, a new aqueous two-phase extraction procedure was developed which partitions soluble non-native IGF-I and biomass solids into separate liquid phases. This two-phase extraction procedure involves addition of polymer and salt to the solubilization mixture and provides about 90% recovery of solubilized IGF-I in the light phase. The performance of the solubilization and aqueous extraction procedures is reproducible at scales ranging from 10 to 1000 liters and provides a 70% cumulative recovery yield of IGF-I in the isolated light phase. The procedure provides significant initial IGF-I purification since most host proteins remain cell associated during solubilization and are enriched in heavy phase. ELISA analysis for E. coli proteins indicates that 97% of the protein in the light phase is IGF-I. Together, the techniques of in situ solubilization and aqueous two-phase extraction provide a new, high yield approach for isolating recombinant protein which is accumulated in more than one form during fermentation.

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Vascular Endothelial Growth Factor Augments Muscle Blood Flow and Function in a Rabbit Model of Chronic Hindlimb Ischemia

Walder¹,

Errett²,

Bunting³

et al. 1996

Journal of Cardiovascular Pharmacology

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Animal studies have shown that angiogenic factors can increase vascularity and improve blood pressure (BP) in an ischemic limb. Whether changes in these parameters are indicators of significant improvement in muscle function has not been demonstrated. In a rabbit model of hind limb ischemia, we measured blood flow in the extensor digitorum longus muscle (EDL) both at rest and during electrical stimulation. Ablation of the femoral artery caused significant reductions in resting and stimulated EDL blood flow. The chronic reduction in perfusion caused impairment of muscle function (p < 0.01). At 28 days after a single administration of vascular endothelial growth factor (VEGF), stimulated muscle blood flow (3 mg/kg intravenously, i.v.) and muscle function [1 mg intrarterially (i.a.) or 3 mg/kg i.v.] were significantly improved as compared with that of vehicle-treated controls. Simultaneous measurement of the hemodynamic responses in the contralateral limb and in the kidneys confirmed that the effects of VEGF were confined to the ischemic limb. The data agree with findings that angiogenic factors increase perfusion through angiogenesis. We hypothesized that neovascularization allows work-associated muscle hyperemia, resulting in a significant improvement in muscle function. Similar clinical improvements in muscle function would signify a substantial advance in the treatment of peripheral vascular disease.

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A Variant of t-PA (T103N, KHRR 296-299 AAAA) that, by Bolus, Has Increased Potency and Decreased Systemic Activation of Plasminogen

Refino¹,

Paoni²,

Keyt³

et al. 1993

Thromb Haemost

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SummaryIn the accompanying paper, we reported that the properties of decreased plasma clearance rate, increased fibrin specificity, and resistance to inactivation by PAI-1 could be effectively combined in the t-PA variant T103N, KHRR 296-299 AAAA. In the current study we evaluated the in vivo efficacy of this variant as well as variants containing the individual mutations T103N and KHRR 296-299 AAAA. Plasma clearance and in vivo lysis of whole blood and platelet-rich clots were determined in a rabbit arterio-venous shunt model. The T103N containing variants were administered as an intravenous (i.v.) bolus. KHRR 296-299 AAAA and t-PA were infused i.v. over 90 min. The clearance rate of the KHRR 296-299 AAAA variant was similar to t-PA. However, the clearance of the T103N and T103N, KHRR 296-299 AAAA variants were 8 and 6-fold reduced, respectively. Potency of the variants relative to t-PA on whole blood clots ranged from 0.9 (T103N, KHRR 296-299 AAAA) to 1.7 (T103N). Relative potency on platelet-rich clots ranged from 2.4 (T103N) to 4.2 (T103N, KHRR 296-299 AAAA). Fibrinogen concentrations in rabbits 120 min after dosing with a 2.5 mg/kg bolus were: 24, 16, 82, and 77% of initial for t-PA; T103N; KHRR 296-299 AAAA; and T103N, KHRR 296-299 AAAA treatment groups, respectively. These results suggest that the T103N, KHRR 296-299 AAAA variant of t-PA, given as a bolus, could result in greater efficacy, particularly on refractory platelet-rich clots, without inducing the severe systemic lytic state produced by a bolus of a less fibrin specific variant.

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John R. Ogez

A faster-acting and more potent form of tissue plasminogen activator.

Proton NMR Assignments and Solution Conformation of RANTES, a Chemokine of the C-C Type

Large Scale, In Situ Isolation of Periplasmic IGF–I from E. coli

Vascular Endothelial Growth Factor Augments Muscle Blood Flow and Function in a Rabbit Model of Chronic Hindlimb Ischemia

A Variant of t-PA (T103N, KHRR 296-299 AAAA) that, by Bolus, Has Increased Potency and Decreased Systemic Activation of Plasminogen

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