Induction of phenylpropanoid metabolism in elicitor-treated hybrid poplar suspension-cultured cells

Sá, Mário Moniz de.

January 1991

Induction of phenylpropanoid metabolism in many plants is associated with the induction of plant defence responses. Among these are the accumulation of phenylpropanoid-derived phytoalexins, increase in lignification around infected sites, and the accumulation of wall-bound phenolic compounds. I show in this work, that H11 hybrid cell suspension cultures when treated with either of three elicitors respond with an increase in phenylpropanoid metabolism. Activation proceeds rapidly from PAL and 4CL mRNA accumulation, to a massive increase in extractable PAL enzyme activity and finally there is accumulation of specific phenolic compounds in the cell extracts, culture filtrates, and cell walls. In addition, elicitor treatment causes cells to turn brown, indicative of phenolic compound accumulation. As in other plants, induction is dependent on culture age, is dose dependent, and the kinetics of induction is the same with all three elicitors. Based on the previously established mode of action of PGA lyase as an elicitor, it is concluded that in poplar, as in other plants, defence responses can be induced by elicitors from both fungal and plant cell wall origin. These results illustrate the successful use of plant suspension cultures as a simplified system to study inducible defence responses. In addition, and consistent with the ubiquitous nature of phenolics in poplar, phenylpropanoid metabolism may play an important role in plant defence responses in this species. / Science, Faculty of / Botany, Department of / Graduate

Plant defenses

Phenylalanine -- Metabolism

Treatment factors and neuropsychological outcome in phenylketonuria

Griffiths, Peter V.

January 1997

Phenylketonuria (PKU) is an inherited metabolic disease that affects about one in 10,000 of the population worldwide. In the classical form of the condition, the hepatic enzyme phenylalanine hydroxlase is absent or much reduced. If untreated, severe or profound mental handicap customarily results due to the accumulation of dietary phenylalanine (phe) which is neurotoxic. The mechanism by which phe impairs growth in the immature nervous system is little understood, but myelin metabolism appears to be disturbed. Treatment is by reduction of phe in daily food intake. Treatment should ideally begin in the neonatal period if intellectual loss is to be avoided. However, the safe range of phe concentrations during treatment and the age at which treatment can be discontinued without further damage being inflicted are uncertain. The studies reported in this volume investigated neuropsychological outcomes of treatment control and cessation factors. In addition, the question of whether executive functions are especially vulnerable to elevated phe concentrations during treatment was addressed. Patient samples conformed to the practice adopted in the West of Scotland regional centre for the management of PKU of maintaining dietary treatment until age 10 or beyond. Almost exclusively, negative findings emerged. These suggested that, if control of phe intake conforms to current UK recommendations for the preschool and primary years, neither global nor specific intellectual deficit result. Furthermore, the data supported the view that cessation of treatment at 10 years of age does not have harmful consequences. These findings have direct implications for the formulation of clinical policy on the treatment of PKU, but it must be recognized that the history of the successful treatment of PKU and mass screening for the disease spans a mere three decades. Thus, treatment outcome research to date is based only on children and young adults. In future investigations, a life-span approach will be required before the issues raised in this thesis can be finally settled.

150

The effect of phenylalanine analogues on the transport of metabolism of phenylalanine : with special reference to the possible use in phenylketonuria / by David Robin Lines

Lines, David R.

January 1984

Articles and serials related to the thesis research bound in appendix / Includes bibliographical references / v, 217 leaves, [2] leaves of plates : / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (M.D.)--University of Adelaide, Faculty of Medicine, 1984

616.3995061 19

Phenylalanine Metabolism.

Phenylketonuria Chemotherapy.

Enzyme substitution therapy for hyperphenylalaninemia with phenylalanine ammonia lyase : an alternative to low phenylalanine dietaty treatment : effective in mouse models

Sarkissian, Christineh N.

January 2000

No description available.

Lyases.

Phenylketonuria -- Treatment.

Phenylalanine Ammonia-Lyase.

Enzyme substitution therapy for hyperphenylalaninemia with phenylalanine ammonia lyase : an alternative to low phenylalanine dietaty treatment : effective in mouse models

Sarkissian, Christineh N.

January 2000

Phenylketonuria (PKU) and related forms of non-PKU hyperphenylalaninemias (HPA) result from deficiencies in phenylalanine hydroxylase (PAH), the hepatic enzyme that catalyses the conversion of phenylalanine (phe) to tyrosine (tyr). Patients are characterised by a metabolic phenotype comprising elevated levels of phe and some of its metabolites, notably phenyllactate (PLA), phenylacetate (PAA) and phenylpyruvate (PPA), in both tissue and body fluids. Treatment from birth with low-phe diet largely prevents the severe mental retardation that is its major consequence. / Mechanisms underlying the pathophysiology of PKU are still not fully understood; to this end, the availability of an orthologous animal model is relevant. A number of N-ethyl-N-nitrosourea (ENU) mutagenized mouse strains have become available. I report a new heteorallelic strain, developed by crossing female ENU1 (with mild non-PKU HPA) with a male ENU2/+ carrier of a 'severe' PKU-causing allele. I describe the new hybrid ENU1/2 strain and compare it with control (BTBR/Pas), ENU1, ENU2 and the heterozygous counterparts. The ENU1, ENU1/2 and ENU2 strains display mild, moderate and severe phenotypes, respectively, relative to the control and heterozygous counterparts. / I describe a novel method using negative ion chemical ionization gas chromatography/mass spectrometry (NICI-GC/MS) to measure the concentration of PLA, PAA and PPA in the brain of normal and mutant mice. Although elevated moderately in HPA and more so in PKU mice, concentrations of these metabolites are not sufficient to explain impaired brain function; however phe is present in brain at levels associated with harm. / Finally, I describe a new modality for treatment of HPA, compatible with better human compliance: it involves enzyme substitution with non-absorbable and protected phenylalanine ammonia lyase (PAL) in the intestinal lumen, to convert L-phenylalanine to the harmless metabolites (trans-cinnamic acid and trace ammonia). PAL, taken orally, substitutes for the deficient PAH enzyme and depletes body pools of excess phe. I describe an efficient recombinant approach to produce PAL enzyme. I also provide proofs of both pharmacologic and physiologic principles by testing PAL in the orthologous mutant mouse strains with HPA. The findings encourage further development of PAL for oral use as an ancillary treatment of human PKU.

Phenylketonuria -- Treatment.

Lyases.

Phenylalanine Ammonia-Lyase.

Ramp function approximations of Michaelis-Menten functions in biochemical dynamical systems

Dore-Hall, Skye

22 December 2020

In 2019, Adams, Ehlting, and Edwards developed a four-variable system of ordinary differential equations modelling phenylalanine metabolism in plants according to Michaelis-Menten kinetics. Analysis of the model suggested that when a series of reactions known as the Shikimate Ester Loop (SEL) is included, phenylalanine flux into primary metabolic pathways is prioritized over flux into secondary metabolic pathways when the availability of shikimate, a phenylalanine precursor, is low. Adams et al. called this mechanism of metabolic regulation the Precursor Shutoff Valve (PSV). Here, we attempt to simplify Adams and colleagues’ model by reducing the system to three variables and replacing the Michaelis-Menten terms with piecewise-defined approximations we call ramp functions. We examine equilibria and stability in this simplified model, and show that PSV-type regulation is still present in the version with the SEL. Then, we define a class of systems structurally similar to the simplified Adams model called biochemical ramp systems. We study the properties of the Jacobian matrices of these systems and then explore equilibria and stability in systems of n ≥ 2 variables. Finally, we make several suggestions regarding future work on biochemical ramp systems. / Graduate

Michaelis–Menten kinetics

Ramp functions

Ordinary differential equations

Piecewise linear

Biochemical systems

Dynamical systems

Phenylalanine metabolism

Metabolic pathways

Linear algebra

Eigenvalues

Equilibria

Stability