Showing papers on "In vivo published in 1982"

Selective Protection against Conidia by Mononuclear and against Mycelia by Polymorphonuclear Phagocytes in Resistance to Aspergillus: OBSERVATIONS ON THESE TWO LINES OF DEFENSE IN VIVO AND IN VITRO WITH HUMAN AND MOUSE PHAGOCYTES

Abstract: By comparing natural immunity to Aspergillus fumigatus (AF) in vivo with the action of human or mouse phagocytes against AF in vitro, we delineated two sequential lines of defense against AF. The first line of defense was formed by macrophages and directed against spores. Macrophages prevented germination and killed spores in vitro and rapidly eradicated conidia in vivo, even in neutropenic and athymic mice. The second was the neutrophilic granulocyte (PMN), which protected against the hyphal form of AF. Human and mouse PMN killed mycelia in vitro. Normal, but not neutropenic mice, stopped hyphal growth, and eradicated mycelia. Either line of defense acting alone protected mice from high challenge doses. Natural immunity collapsed only when both the reticuloendothelial system and PMN were impaired. These findings are in keeping with the clinical observation that high doses of cortisone and neutropenia are the main risk factors for invasive aspergillosis. Cortisone inhibited the conidiacidal activity of mouse macrophages in vivo and of human or mouse mononuclear phagocytes in vitro. Cortisone damaged this first line of defense directly and not through the influence of T lymphocytes or other systems modifying macrophage function as shown in athymic mice and in vitro. In addition, daily high doses of cortisone in mice reduced the mobilization of PMN so that the second line of defense was also impaired. Thus, cortisone can break down natural resistance on its own. Myelosuppression rendered mice susceptible only when the first line of defense was overpowered by high challenge doses, by activated spores that cannot be killed by macrophages, or by cortisone suppression of the conidiacidal activity of macrophages. The host, thus, can call upon two independent phagocytic cell lines that form graded defense systems against aspergillus. These lines of defense function in the absence of a specific immune response, which seems superfluous in the control and elimination of this fungus.

Helper activity is required for the in vivo generation of cytotoxic T lymphocytes

Abstract: B6.T1a(a) (Qa-1(a)) mice that are primed in vivo and restimulated in vitro with Qa-1 congenic spleen cells from B6 (Qa-1(b)) animals are unable to generate anti-Qa-1(b) cytotoxic T lymphocytes (CTL). This nonresponsive pattern was observed regardless of the route of immunization or the time of testing in vitro. Although B6.T1a(a) mice are nonresponders to Qa-1(b) when presented on B6 cells, these mice can generate anti-Qa-1(b) CTL when primed in vivo with Qa-1 and H-Y alloantigens (females primed with B6 male cells) or Qa-1 and minor-H- alloantigens (primed with sex-matched A.BY cells). Therefore, the inability to generate anti-Qa-1(b) CTL is due to a lack of helper or accessory antigens on B6 immunizing cells obligatory during in vivo priming, rather than an absence of anti-Qa-1(b) CTL precursors (CTL-P). Demonstration that the additional determinants required during in vivo priming actually function as carrier or helper determinants was shown by the requirement for linked recognition of Qa-1 and the helper determinants (H-Y) in vivo, and the fact that H-Y was not present on susceptible target ceils. Animals primed in vivo with H-Y only could not generate anti-Qa-1 CTL activity when challenged in vitro with both Qa-1 and H-Y, indicating that recognition of the helper determinant causes in vivo priming of CTL-P rather than generating helper activity that might activate unprimed CTL-P in vitro. Whereas unprimed peripheral CTL-P require the presence of both Qa-1 (CTL) and H-Y (helper) determinants for successful in vivo priming, helper determinants were not required in vitro because primed CTL-P from B6.T1a(a) mice could be driven to CTL in vitro using sex-matched B6 stimulator cells. The generation of anti-Qa-1(b) CTL is under immune response (Ir) gene control because F(1) mice, obtained by crossing responder A/J with nonresponder B6.T1a(a) animals, generated CTL to the Qa-1(b) alloantigen when presented on B6 spleen cells. Progeny testing of backcross mice further demonstrated that the Ir gene(s) is linked to the H-2 complex. These data indicate that an H-2-linked Ir gene controls the recognition of helper determinants required for CTL priming in vivo. These helper determinants can be distinguished from CTL determinants and both must be recognized together for successful priming of CTL-P.

T-cell cloning to detect the mutant 6-thioguanine-resistant lymphocytes present in human peripheral blood

Abstract: Rare thioguanine-resistant T lymphocytes, present in vivo in human peripheral blood, were isolated and grown in vitro as thioguanine-resistant cultured T cells. The conditions for their selection in vitro were such that thioguanine resistance had to have arisen in vivo. The mutant cells bore T-cell surface markers, maintained their thioguanine resistance in vitro in the presence or absence of selection, and were deficient in hypoxanthine-guanine phosphoribosyltransferase activity.

A modified method for the in vivo labeling of red blood cells with Tc-99m: concise communication

Abstract: The rate of incorporation of Tc-99m into red blood cells pretinned in vivo was measured by collecting blood samples in stannous DTPA solution, which served as a competing ligand for Tc-99m. This collection technique permitted a measurement of high-affinity red-cell labeling efficiency at the instant of sampling. At 0.5 min after injection only 62% of technetium is tightly bound to the red cell; this rises to 94.5% at 10 min. Based on the graded labeling of the red cells, the in vivo labeling procedure was modified by isolating pertechnetate and red blood cells tinned in vivo in a syringe during the first 10 min of labeling. The pertechnetate is thus prevented from distributing to extravascular compartments, and 90% of the injected Tc-99m is firmly bound to red blood cells at the time of injection. In a series of 23 patients, seven were tested with the in vivo method and seven with the modified in vivo method, and nine patients were tested with each method on separate occasions. A decrease in gastric activity and improved image quality were found with the modified method compared with the standard method of in vivo red-cell labeling.

Correlation between effects of 24 different cytochalasins on cellular structures and cellular events and those on actin in vitro.

Abstract: To compare the effects of cytochalasins on the cellular level with those on the molecular level, 24 cytochalasins, 20 natural compounds and 4 derivatives, were used. The following effects were tested for each of 24 cytochalasins; (a) four high dose (2-20 muM) effects on the cellular level: rounding up of fibroblastic cells, contraction of actin cables, formation of hairy filaments containing actin, and inhibition of lymphocyte capping; (b) a low dose (0.2-2 muM) effect: inhibition of membrane ruffling; and (c) two in vitro effects: an inhibition of actin filament elongation (the high affinity effect [low dose effect] in vitro) and an effect on viscosity of actin filaments(the low affinity effect [high dose effect] in vitro). These results indicated that there are almost the same hierarchic orders of relative effectiveness of different cytochalasins between low and high dose effects and between cellular and molecular effects. From the data obtained with the 24 cytochalasins, we have calculated correlation coefficients of 0.87 and 0.79 between an effect in vivo, inhibition of capping, and an effect in vitro, inhibition of actin filament elongation, as well as between inhibition of capping and another effect in vitro, effect on viscosity of actin filaments, respectively. Furthermore, a correlation coefficient between the high affinity effect and the low affinity effect determined in vitro was calculated to be 0.90 from the data obtained in this study. The strong positive correlation among low and high dose effects in vivo and those in vitro suggests that most of the effects caused by a cytochalasin, irrespective of doses or affected phenomena, might be attributed to the interaction between the drug and the common target protein, actin. In the course of the immunofluorescence microscope study on cytochalasin-treated cells using actin antibody, we have found that aspochalasin D, a 10-isopropylcytochalasin, strongly induced the formation of rodlets containing actin in the cytoplasm of the treated fibroblasts. In contrast, the other cytochalasins, including cytochalasin B, cytochalasin C, cytochalasin D, and cytochalasin H, were found to induce the formation of nuclear rodlets. Both cytoplasmic and nuclear rodlets found in the cytochalasin-treated cells were similar in ultrastructures to those induced by 5 to 10 percent (vol/vol) dimethyl sulfoxide in the same type of cells.

Augmentation of the anti-tumor therapeutic efficacy of long-term cultured T lymphocytes by in vivo administration of purified interleukin 2.

Abstract: Spleen cells from C57BL/6 mice immunized in vivo with a syngeneic Friend virus-induced leukemia, FBL-3, were specifically activated by culture for 7 d with FBL-3, then nonspecifically induced to proliferate in vitro for 12 d by addition of supernatants from concanavalin A-stimulated lymphocytes containing interleukin 2 (IL-2). Such long-term cultured T lymphocytes have previously been shown to specifically lyse FBL-3 and to mediate specific adoptive therapy of advanced disseminated FBL-3 when used as an adjunct to cyclophosphamide (CY) in adoptive chemoimmunotherapy. Because the cultured cells are dependent upon IL-2 for proliferation and survival in vitro, their efficacy in vivo is potentially limited by the availability of endogenous IL-2. Thus, the aim of the current study was to determine whether exogenously administered purified IL-2 could augment the in vivo efficacy of long-term cultured T lymphocytes. Purified IL-2 alone or as an adjunct to CY as ineffective in tumor therapy. However, IL-2 was extremely effective in augmenting the efficacy of IL-2-dependent long-term cultured T lymphocytes in adoptive chemoimmunotherapy. The mechanism by which IL-2 functions in vivo is presumably by promoting in vivo growth and/or survival of adoptively transferred cells. This assumption was supported by the findings that IL-2 did not enhance the modest therapeutic efficacy of irradiated long-term cultured cells that were incapable of proliferating in the host and was ineffective in augmenting the in vivo efficacy of noncultured immune cells that are not immediately dependent upon exogenous IL-2 for survival.

In vivo regeneration of cut nerves encased in silicone tubes: growth across a six-millimeter gap.

Abstract: We describe an experimental in vivo system for studying peripheral nerve regeneration, in which the proximal stump of a transected nerve regrows through a transparent silicone chamber toward the distal stump. Physical separation permits examination of the effects of the humoral and/or cellular influences from the distal stump on regenerating fibers before they invade the distal segment itself. A small segment of the rat sciatic nerve was resected, leaving a 6 mm gap which was then encased by a cylindrical silicone chamber. Within the first weeks, a nerve trunk regenerated along the central axis of the chamber bridged the gap between the proximal and distal stumps. When the distal nerve stump was omitted from the distal opening of the chamber, only a thin structure with a few small-caliber fibers extended across the gap. In each instance regenerating nerve appeared as a cord-like structure completely surrounded by clear fluid, a feature which permits easy collection of the extracellular fluid for analysis of its chemical properties and biological activity. This feature also allows in vivo manipulation of the humoral environment in which nerve regeneration occurs.

Mechanism of insulin resistance in fructose-fed rats.

Abstract: Previous results from our laboratory demonstrated that chronic administration of fructose to normal rats led to both hyperinsulinemia and in vivo insulin resistance. To localize the major tissue site of insulin resistance in fructose-fed animals, we compared glucose uptake by perfused hindlimb skeletal muscle and liver from rats fed either a 60% fructose diet or laboratory chow. Glucose uptake by perfused muscle from chow and fructose-fed rats was comparable at perfusate insulin levels of 0 μU/ml (15.2 versus 15.5 μl/min/g muscle), 100 μU/ml (18.3 versus 19.8), and >500 μU/ml (35.5 versus 33.4). In contrast, glucose outflow from livers of fructose-fed rats was significantly greater ( p 900 μU/ml, (32.5% versus 62.2%). These findings suggest that the insulin resistance resulting from chronic fructose feeding is due to the diminished ability of insulin to suppress hepatic glucose output, and not to a decrease in insulin-stimulated glucose uptake by muscle.

IgA interaction with the asialoglycoprotein receptor

Abstract: IgA present in normal human serum reacts with the hepatic receptor specific for asialoglycoproteins as demonstrated by inhibition of receptor-mediated erythroagglutination. Inhibition is reversibly abolished by the oxidation of the galactose or N-acetylgalactosamine residues of IgA with galactose oxidase. The site of receptor recognition appears to be the O-glycosidically linked oligosaccharides present on the hinge region of the IgAI subtype of IgA. The demonstration of a specific binding, in vitro, of IgA by the hepatic receptor suggests that the uptake of polymeric IgA by the liver in vivo may be mediated by this reaction.

Leukotriene C4 affects pulmonary and cardiovascular dynamics in monkey.

Abstract: Leukotriene C4 (LTC4) and its metabolites LTD4 and LTE4 (Fig. 1) have been identified as the major active constituents of slow-reacting substance of anaphylaxis (SRS-A)1–3. Leukotrienes C4, D4 and E4 have rapidly gained recognition as bronchoconstrictors of hitherto unsurpassed potency in the guinea pig in vivo and in vitro4–7 as well as acting as oedema-forming substances in guinea pig3,5,7 and hamster8. Here we report that LTC4 is also a prominent bronchoconstrictor in the monkey; it increases transpulmonary pressure in the anaesthetized animal, mainly by decreasing pulmonary dynamic compliance, and it contracts isolated tracheal spiral tissue. Furthermore, LTC4 causes transient pulmonary and systemic hypertension, followed by a prolonged hypotensive period associated with decreased cardiac output, haemoconcentration and reduction in the number of circulating leukocytes. These in vivo findings in a primate imply that leukotrienes may also cause important alterations of cardiovascular and pulmonary function in man.

Human in vivo antigenic modulation induced by the anti-T cell OKT3 monoclonal antibody.

Abstract: The anti-pan T cell monoclonal antibody OKT3 was administered daily for 2 weeks in four human renal allograft recipients. The antibody induced a dramatic and immediate depletion of peripheral T cells followed by an in vivo antigenic modulation of the OKT3-defined membrane antigen: after three injections, OKT3-treated patients showed a limited but significant number of OKT3- cells of T cell nature (as defined by OKT4 and OKT8) which recovered the OKT3 receptor after an overnight in vitro incubation in the absence of the monoclonal antibody.

Effects of local anesthetic QX-314 on the membrane properties of hippocampal pyramidal neurons.

Abstract: The quaternary lidocaine derivative QX-314 was applied internally to CA1 pyramidal neurons of the guinea-pig hippocampal slice preparation. This local anesthetic blocked both fast, Na+-dependent action potentials and the voltage-dependent, non-inactivating Na+ conductance. Partially blocked Na+ spikes exhibited pronounced frequency-dependent depression at rates as low as 0.2 Hz. Ca++-dependent electrogenesis, synaptic potentials and glutamate-induced depolarizations were apparently unaffected even after large doses of QX-314. The results indicate that the cellular mechanisms of local anesthetics on central neuronal membranes are similar to those described for peripheral axons. The frequency-dependence of spike blockade may account for some of the effects of local anesthetics on the central nervous system in vivo. Additionally, the localized intracellular application of QX-314 may prove useful as a specific pharmacological tool in studies of central neurons.

Growing of long-term biological tissue correction structures in vivo

Abstract: A mesh or gauze of a bioabsorbable material is used to temporarily correct a defect in a living body. The mesh is of a construction sufficient so that biological tissue in the area of the defect can grow into it and form a long-term biological tissue correction structure before the mesh is completely bioabsorbed. The long-term biological tissue correction structure forms a substantially permanent correction of the defect. The mesh is normally sutured or otherwise fastened in position to correct the defect and is maintained in that position for a time sufficient for the long-term biological tissue correction structure to form and for the mesh to be completely bioabsorbed.

A Mutant of Arabidopsis thaliana Which Lacks Activation of RuBP Carboxylase In Vivo.

Abstract: A mutant of Arabidopsis thaliana has been isolated in which ribulose-1,5-bisphosphate carboxylase is present in a nonactivatable form in vivo. The mutation appears to affect carboxylase activation specifically, and not any other enzyme of the photosynthesis or photorespiratory cycles. The effect of the mutation on carboxylase activation is indirect, inasmuch as the properties of ribulose-1,5-bisphosphate carboxylase purified from the mutant are not distinguishable from those of the wild type enzyme. The mutant requires high levels of atmospheric CO2 for growth because photosynthesis is severely impaired in atmospheres containing normal levels of CO2, irrespective of the atmospheric O2 concentration. In this respect, the mutant is distinguished from previously described high-CO2 requiring mutants of Arabidopsis which have defects in photorespiratory carbon or nitrogen metabolism.

Comparative biochemical properties of p21 ras molecules coded for by viral and cellular ras genes.

Abstract: In earlier studies, we molecularly cloned a normal cellular gene, c-rasH-1, homologous to the v-ras oncogene of Harvey murine sarcoma virus (v-rasH). By ligating a type c retroviral promotor to c-rasH-1, we could transform NIH 3T3 cells with the c-rasH-1 gene. The transformed cells contained high levels of a p21 protein coded for by the c-rasH-1 gene. In the current studies, we have purified extensively both v-rasH p21 and c-rasH p21 and compared the in vivo and in vitro biochemical properties of both these p21 molecules. The p21 proteins coded for by v-rasH and c-rasH-1 shared certain properties: each protein was synthesized as a precursor protein which subsequently became bound to the inner surface of the plasma membrane; each protein was associated with guanine nucleotide-binding activity, a property which copurified with p21 molecules on a high-pressure liquid chromatography molecular sizing column. In some other properties, the v-rasH and c-rasH p21 proteins differed. In vivo, approximately 20 to 30% of v-rasH p21 molecules were in the form of phosphothreonine-containing pp21 molecules, whereas in vivo only a minute fraction of c-rasH-1 p21 contained phosphate, and this phosphate was found on a serine residue. v-rasH pp21 molecules with an authentic phosphothreonine peptide could be synthesized in vitro in an autophosphorylation reaction in which the gamma phosphate of GTP was transferred to v-rasH p21. No autophosphorylating activity was associated with purified c-rasH-1 p21 in vitro. The results indicate a major qualitative difference between the p21 proteins coded for by v-rasH and c-rasH-1. The p21 coded for by a mouse-derived oncogenic virus, BALB murine sarcoma virus, resembled the p21 coded for by c-rasH-1 in that it bound guanine nucleotides but did not label appreciably with 32Pi. The forms of p21 coded for by other members of the ras gene family were compared, and the results indicate that the guanine nucleotide-binding activity is common to p21 molecules coded for by all known members of the ras gene family.

A new antithrombogenic material with long polyethyleneoxide chains.

Abstract: The PVC-g-MnG polymers were synthesized by photo-induced graft copolymerization of methoxypoly (ethyleneoxide)monomethacrylate (MnG) with various chain lengths (n) of polyethyleneoxide (PEO) (n = 4, 9, 15, 23, 50, 100) as side chains to polyvinylchloride (PVC) with photo-sensitive dithiocarbamate groups. Antithrombogenicity has been evaluated in vitro and in vivo. The in vitro and in vivo results indicated that the adsorption of blood elements to the PVC-g-MnG significantly decreased with the increasing PEO chain length (n). From these findings it is suggested that the volume restriction effect resulted from the formation of long-chain PEO on the surface and which effectively suppresses the adsorption of blood elements and prevents the denaturation of blood elements.

Development of preimplantation mouse embryos in vivo and in vitro.

Abstract: The culture conditions for the development in vitro of (C57BL/6 X CBA) F2 hybrid two-cell embryos to the blastocyst stage have been optimized. Commercially available pre-sterile disposable plastic culture dishes supported more reliable development than re-usable washed glass tubes. The presence of an oil layer reduced the variability in development. An average of 85 % of blastocysts developed from hybrid two-cell embryos cultured in drops of Whitten's medium under oil in plastic culture dishes in an atmosphere of 5% O2 : 5% CO2 : 90% N2 ? The time taken for the total cell number to double in embryos developing in vivo was 10 h, and in cultured embryos 17 h. Embryos cultured in vitro from the two-cell stage to blastocyst stage were retarded by 18-24 h in comparison with those remaining in vivo. Day-4 blastocysts in vivo contained 25-70 cells (mean 50) with 7-28 (mean 16) of these in the inner cell mass. Cultured blastocysts contained 19-73 cells (mean 44) with 8-34 (mean 19) of these in the inner cell mass. In the uterine environment, inner-cell-mass blastomeres divided at a faster rate than trophectoderm blastomeres and it is suggested that a long cell cycle is associated with terminal differentiation. Although cultured blastocysts and inner cell masses contained the same number of cells as blastocysts and inner cell masses in vivo, the rate of cell division in cultured inner cell masses was markedly reduced.

Evidence for Two Tissue-specific Pathways for In Vivo Thyroxine 5′-Deiodination in the Rat

Abstract: Propylthiouracil (PTU) is a well known inhibitor of thyroxine (T4) to triiodothyronine (T3) conversion as evidenced by its effect in several in vitro systems and by the decrease in serum T3 caused by this drug in either rats or man receiving T4 replacement. However, the failure of PTU to decrease the intrapituitary T3 concentration and to completely blunt the serum T3 concentration in T4-replaced athyreotic rats suggest that there may be a PTU-insensitive pathway of T4 to T3 conversion in some tissues. To address this question, we have studied the in vivo effect of PTU treatment on the generation of [125I]T3 from [125I]T4 in the serum and cerebral cortex (Cx), cerebellum (Cm), liver (L), and anterior pituitary (P) of euthyroid rats. Whereas PTU decreased the concentration of [125I]T3 in the serum, L homogenates, and L nuclei after [125I]T4, it did not affect the concentration of [125I]T3 in homogenates or nuclei of Cx, Cm, or P. Iopanoic acid pretreatment significantly reduced the [125I]T3 concentration in serum, homogenates, and cell nuclei of all these organs. Neither agent affected the metabolism or tissue distribution of simultaneously injected [131I]T3. The presence of PTU in these tissues was evaluated by in vitro assessment of iodothyronine 5′-deiodinating activity using both [125I]rT3 and [125I]T4 as substrates. In agreement with the in vivo findings, generation of [125I]T3 from T4 in vitro was not affected by PTU in Cx, Cm, P but it was inhibited by 76% in L. However, rT3 5′-deiodination, known to be sensitive to PTU in these tissues, was inhibited in all four indicating that the PTU given in vivo was present in significant amounts. These results demonstrate that in rat Cx, Cm, and P unlike liver, PTU does not inhibit T4 to T3 conversion in vivo despite the presence of the drug in the tissues in amounts that significantly inhibit reverse T3 5′-deiodination. These results show that in vivo 5′-deiodination of T4 proceeds via a PTU-insensitive pathway in the central nervous system and pituitary, while this pathway is not quantitatively important in the L. This mechanism accounts for the “locally generated” T3 in central nervous system and pituitary and could also provide the approximately one-third of extrathyroidally produced T3 not blocked by PTU administration in athyreotic T4-replaced rat.

In vitro and in vivo effector function of rat IgG2a monoclonal anti-S. mansoni antibodies.

Abstract: Rat IgG2a monoclonal antibodies have been produced after fusion of spleen cells from LOU/C rats infected with S. mansoni for 5 wk and IR983F nonsecreting rat myeloma cells. The cell supernatants of one particular IgG2a-producing clone (IPL Sm1) as well as ascitic fluids induced by this clone revealed anti-S. mansoni activity detected by immunofluorescence on schistosoma sections. In vitro studies of the effector function of such antibodies revealed that the rat IgG2a monoclonal antibodies mediated high levels of rat eosinophil-dependent cytotoxic effect against S. mansoni schistosomula, similar to that obtained with 5-week infected rat serum. Passive transfer experiments carried out with IPL Sm1 ascitic fluid showed a significant level of passive protection against a challenge infection. These results indicate a possible use of the monoclonal antibodies in analyzing in vivo functions of IgG2a antibodies, as well as in isolating potentially protective target antigens.

The conversion of phenylalanine to tyrosine in man. Direct measurement by continuous intravenous tracer infusions of L-[ring-2H5]phenylalanine and L-[1-13C]tyrosine in the postabsorptive state

Abstract: Steady state phenylalanine and tyrosine turnover and the rate of conversion of phenylalanine of tyrosine in vivo were determined in 6 healthy postabsorptive adult volunteers. Continuous infusions of tracer amounts of L-[ring-2H5]phenylalanine were determined intravenously for 13-14 hr. After 9-10 hr, a priming dose followed by a continuous infusion of L-[1-13C]tyrosine was added and maintained, along with the [2H5]phenylalanine infusion, for 4 hr. Venous plasma samples were obtained before the initiation of each infusion and every 30 min during the course of the combined [2H5]phenylalanine and [13C]tyrosine infusion for determination of isotopic enrichments of [2H5]phenylalanine, [13C]tyrosine, and [2H4]tyrosine by gas chromatograph-mass spectrometric analysis of the N-trifluoroacetyl-, methyl ester derivatives of the amino acids. Calculated from the observed enrichments, free phenylalanine and tyrosine turnover rates were 36.1 +/- 5.1 mumole . kg-1 . h-1 and 39.8 +/- 3.5 mumole . kg-1 . h-1, respectively. Phenylalanine was converted to tyrosine at the rate of 5.83 +/- 0.59 mumole . kg-1 . h-1, accounting for approximately 16% of either the phenylalanine or the tyrosine flux. The results indicate that the normal basal steady state phenylalanine hydroxylase activity in vivo in man is lower than that obtained from phenylalanine loading studies. This supports the existence of some type of substance activation of the enzyme as reflected in the previously reported exponential relationship between phenylalanine concentration and phenylalanine hydroxylase activity in vitro. The use of continuous simultaneous infusions of tracer amounts of stable isotope-labeled phenylalanine and tyrosine provides a direct means for studying physiological regulation of phenylalanine hydroxylase activity in vivo.