To generate a stable resource from which high affinity human antibodies to any given antigen can be rapidly isolated, functional V-gene segments from 43 non-immunized human donors were used to construct a repertoire of 1.4 x 10(10) single-chain Fv (scFv) fragments displayed on the surface of phage. Fragments were cloned in a phagemid vector, enabling both phage displayed and soluble scFv to be produced without subcloning. A hexahistidine tag has been incorporated to allow rapid purification of scFv by nickel chelate chromatography. This library format reduces the time needed to isolate monoclonal antibody fragments to under two weeks. All of the measured binding affinities show a Kd < 10 nM and off-rates of 10(-3) to 10(-4) s-1, properties usually associated with antibodies from a secondary immune response. The best of these scFvs, an anti-fluorescein antibody (0.3 nM) and an antibody directed against the hapten DTPA (0.8 nM), are the first antibodies with subnanomolar binding affinities to be isolated from a naive library. Antibodies to doxorubicin, which is both immunosuppressive and toxic, as well as a high affinity and high specificity antibody to the steroid hormone oestradiol have been isolated. This work shows that conventional hybridoma technology may be superseded by large phage libraries that are proving to be a stable and reliable source of specific, high affinity human monoclonal antibodies.
The display of proteins on the surface of phage offers a powerful means of selecting for rare genes encoding proteins with binding activities. Recently we found that antibody heavy and light chain variable (V) domains fused as a single polypeptide chain to a minor coat protein of filamentous phage fd, could be enriched by successive rounds of phage growth and panning with antigen. This allows the selection of antigen-binding domains directly from diverse libraries of V-genes. Now we show that heterodimeric Fab fragments can be assembled on the surface of the phage by linking one chain to the phage coat protein, and secreting the other into the bacterial periplasm. Furthermore by introducing an amber mutation between the antibody chain and the coat protein, we can either display the antibody on phage using supE strains of bacteria, or produce soluble Fab fragment using non-suppressor strains. The use of Fab fragments may offer advantages over single chain Fv fragments for construction of combinatorial libraries.
We recently described the use of selective transposon mutagenesis to generate a series of avirulent mutants of a pathogenic strain of Salmonella typhimurium. Cloning and sequencing of the insertion sites from two of these mutants reveals that both have identical locations within an open reading frame that is highly homologous to a gene, htrA, encoding a heat-shock protein in Escherichia coli. DNA sequence analysis of S. typhimurium htrA reveals the presence of a gene capable of encoding a protein with a calculated Mr of 49316 that has 88.7% protein:protein homology with its E. coli counterpart. In E. coli, lesions in this gene, also known as degP, reduce proteolytic degradation of aberrant periplasmic proteins. Characteristics of the S. typhimurium htrA mutants, 046 and 014, in vivo and in vitro suggested that they are avirulent because of impaired ability to survive and/or replicate in host tissues. In vitro, the S. typhimurium htrA mutants 046 and 014 are not temperature-sensitive but were found to be more susceptible to oxidative stress than the parent, suggesting that they may be less able to withstand oxidative killing within macrophages.
These extraordinary ranges of glomerular number and size among ostensibly "normal" people, and their inverse relationship, probably have important implications for susceptibility to renal insufficiency. People with low glomerular (nephron) numbers are likely to be particularly predisposed, with the process marked by compensatory hypertrophy of residual nephrons, which, in turn, accelerates their obsolescence. Much, however, remains to be done, including evaluation of history, clinical features, accompanying pathology, detailed renal morphology, and further pursuit of potentially defining characteristics in high risk groups.
Renal morphology in adult control and prenatally dexamethasone-treated animals Representative photomicrographs of the renal cortex from two animals from the control group (CON; A and B) and four animals prenatally treated with dexamethasone (DEX; C-F); Tissues shown in A and E were stained with haematoxylin and eosin and those in B, C, D and F were stained with Masson trichrome. In three out of four DEX animals (C, D and F) the proximal tubules (large arrows) were markedly dilated and enlarged. There was no noticeable collagen accumulation in the glomeruli of any animal, but excess collagen can be seen in the tubular interstitium and the periadventitia of cortical vessels (small arrows). Bar represents 50 mm.
Abstract-Recent studies have linked fetal exposure to a suboptimal intrauterine environment with adult hypertension. The aims of the present study were to see whether prenatal dexamethasone administered intravenously to the ewe between 26 to 28 days of gestation (1) resulted in high blood pressure in male and female offspring and whether hypertension in males was modulated by testosterone status, and (2) altered gene expression for angiotensinogen and angiotensin type 1 (AT 1 ) receptors in the brain in late gestation and in the adult. Basal mean arterial pressure (MAP) at 2 years of age was significantly higher in wethers exposed to prenatal dexamethasone (group D; 106Ϯ5 mm Hg, nϭ9) compared with the control group (group S; 91Ϯ3 mm Hg, nϭ8; PϽ0.01). Infusion of testosterone for 3 weeks had no effect on MAP in either treatment group. Key Words: brain Ⅲ glucocorticoids Ⅲ hypertension, experimental Ⅲ sheep E pidemiological evidence suggests that babies born small for gestational age have an increased incidence of adultonset diseases or dysfunction, including syndrome X (hypertension, non-insulin-dependent diabetes mellitus, and hyperlipidemia). [1][2][3] It is hypothesized that a suboptimal intrauterine environment during a critical stage of development permanently alters, or "programs," the development of fetal tissues. This may ensure the short-term survival of the fetus but also may bring adverse consequences in postnatal life.Animal models using maternal undernutrition or restriction of specific dietary components (iron, protein), either throughout pregnancy or during parts of gestation, have confirmed that restriction of fetal growth leads to elevated blood pressure in the progeny of rats. 4 -6 A second type of animal model has examined the long-term/programming effects caused by prenatal glucocorticoid exposure. When adult rats were exposed to large doses of carbenoxolone (an 11-hydroxysteroid dehydrogenase [HSD] inhibitor, which blocks placental inactivation of endogenous glucocorticoids) throughout gestation, offspring were of low birth weight and had high blood pressure. 7-9 The synthetic glucocorticoid dexamethasone, which is poorly metabolized by placental 11-HSD, given throughout rat pregnancy resulted in offspring with high blood pressure. 10 In the sheep, we 11 have shown that exposure to dexamethasone, for 2 days very early in gestation (at a mean age of 27 days of the 150-day gestation period) results in hypertensive female offspring by 3 to 4 months of age. This hypertension amplifies with age and is associated with an increased cardiac output. 12 By 7 years of age, these animals had developed left ventricular hypertrophy with reduced cardiac functional reserve. 13 In these studies, only female offspring were studied. However, in many models, the programming effects of the prenatal treatment are only seen in male offspring, 14 or they were more pronounced in male offspring compared with female offspring. 4 These studies proposed that programming, at least in some models, may be gender specific....
Ovine fetuses exposed to high concentrations of synthetic (dexamethasone, D) or naturally occurring glucocorticoids (cortisol, F) in utero during early gestation develop high blood pressure in adulthood. To investigate potential mechanisms involved, we examined the role of the renal renin-angiotensin system (RAS). Ewes were infused with isotonic saline (S, n = 11), D (n = 12, 0.48 mg/h), or F (n = 5, 5 mg/h) for 48 h between d 26 and 28 of gestation (term = 150 d). Ewes carrying twins (S, n = 5; D, n = 6; F, n = 5) were killed at 130 d of gestation. The mRNA levels for angiotensinogen, the AT(1) receptor and AT(2) receptor, were increased in the fetal kidneys after D treatment. Prenatal infusions of F produced similar effects on the AT(1) receptor. Single fetuses (S, n = 6; D, n = 6) were cannulated and infused with angiotensin II for 3 d beginning at 127 d of gestation. Basal blood pressure was similar in both groups and increased similarly with angiotensin II infusion. However, increases in urine flow and glomerular filtration rate were significantly reduced and kidney weights increased in the D-treated group. These results indicate that treatment with D very early in gestation causes significant alterations in the RAS in the fetal kidney 100 d later with functional consequences. Changes in the RAS in the developing kidney may be an important mechanism in the development of adult disease.
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