F. Dworzak scite author profile

Carnitine palmitoyltransferase (CPT) II deficiency is the most common inherited disorder of lipid metabolism affecting skeletal muscle. We have identified a missense mutation (Ser113Leu) in one patient with the classical muscular symptomatology. Transfection experiments in COS cells demonstrate that the mutation drastically depresses the catalytic activity of CPT II. The mutation results in normal synthesis but a markedly reduced steady-state level of the protein, indicating decreased stability of mutant CPT II. The Ser113Leu mutation is the most frequent cause of CPT II deficiency. The mutation can be detected easily by restriction analysis enabling molecular diagnosis of most patients and identification of heterozygous carriers.

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Lysosomal glycogen storage with normal acid maltase: A familial study with successful heart transplant

Dworzak

Casazza

Mora

et al. 1994

Neuromuscular Disorders

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Motor neuron ‘bistability’: A pathogenetic mechanism for cramps and myokymia

Baldissera

Cavallari

Dworzak

1994

Brain

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In three patients suffering from chronic muscle cramps, spasms and myokymia, these involuntary contractions were triggered in the triceps surae, quadriceps, flexor carpi radialis or flexor digitorum by means of single or short-train stimulation of homonymous Ia afferents, elicited by electrical means or tendon taps. In some cases cramp was induced by the first afferent volleys; more often, however, continued stimulation produced stepwise recruitment of motor units (whose rhythmic firing was visible as myokymia in the muscle) until cramp developed. Cramps and myokymic discharges could usually be terminated by a single maximal stimulus to the motor axons (producing antidromic invasion and Renshaw inhibition of the motor neurons), or by short trains of volleys in inhibitory pathways from the skin. The fact that it was possible to induce myokymia and cramps by brief synaptic excitation and terminate them by antidromic invasion or synaptic inhibition, suggests that the mechanism generating these disturbances is intrinsic to alpha-motor neuron somata. Similar on-off switching of self-sustained motor discharges has been observed in the decerebrate cat and is known to depend on 'bistability' of the motor neuron membrane. We propose that a similar mechanism is responsible for discharges that produce cramp.

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Rate of protein synthesis in skeletal muscle of normal man and patients with muscular dystrophy: A reassessment

Halliday¹,

Pacy²,

Cheng³

et al. 1988

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1. Quadriceps muscle protein synthetic rate has been determined in healthy subjects in the post-absorptive (n = 18) and fed (n = 10) states and in patients with a variety of myopathies, by analysis of the enrichment of serial muscle biopsies taken during primed continuous infusion of L-[1-13C]leucine. 2. Quadriceps protein synthetic rates in normal subjects were (mean +/- SD) 0.046 +/- 0.012 and 0.075 +/- 0.014%/h in the post-absorptive and fed states respectively. These results are significantly lower than we previously reported (M. J. Rennie et al., Clinical Science, 1982, 63, 519-523 [1]) but show the same relative differences of direction and magnitude, confirming the effects of feeding previously reported. In patients with muscular dystrophy, muscle protein synthetic rate was, as previously reported [1], much lower in the fed state than in normal subjects. A new finding is that for patients with myotonic dystrophy the rate is also depressed in the post-absorptive state. 3. We suggest that the present estimates in post-absorptive and fed normal subjects be used as reference values for quadriceps mixed muscle protein synthetic rate.

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Direct determination of leucine metabolism and protein breakdown in humans using L‐[1‐¹³C, ¹⁵N]‐leucine and the forearm model

Cheng

Dworzak

Ford

et al. 1985

Eur J Clin Investigation

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We have used the forearm model to study protein metabolism in six normal healthy subjects in the fed state using L-[1-13C, 15N]-leucine as the substrate tracer. Deep venous and arterialized venous blood samples from the forearm were collected at 10-min intervals 2.5 h into a primed-continuous infusion of the dilabelled tracer. Arterialized venous blood was obtained using a 'hot-box' technique and forearm blood flow was measured by mercury strain-gauge plethysmography. The concentration and isotope enrichment of leucine and its metabolites, alpha-ketoisocaproic acid and CO2, in deep venous and arterialized venous blood were measured by gas chromatography-mass spectrometry and isotope ratio-mass spectrometry. The rates of leucine deamination and reamination were 388 +/- 24 (mean +/- SEM) and 330 +/- 23 nmol (100 ml)-1 min-1 respectively, whilst protein synthesis and breakdown rates were 127 +/- 11 and 87 +/- 10 nmol (100 ml)-1 min-1 respectively across the forearm in the fed state. We have demonstrated that the use of doubly labelled leucine as tracer and application of the mathematical model developed in this study, permits the comprehensive quantification of leucine kinetics including protein breakdown.

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F. Dworzak

Identification of a common mutation in the carnitine palmitoyltransferase II gene in familial recurrent myoglobinuria patients

Lysosomal glycogen storage with normal acid maltase: A familial study with successful heart transplant

Motor neuron ‘bistability’: A pathogenetic mechanism for cramps and myokymia

Rate of protein synthesis in skeletal muscle of normal man and patients with muscular dystrophy: A reassessment

Direct determination of leucine metabolism and protein breakdown in humans using L‐[1‐¹³C, ¹⁵N]‐leucine and the forearm model

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F. Dworzak

Identification of a common mutation in the carnitine palmitoyltransferase II gene in familial recurrent myoglobinuria patients

Lysosomal glycogen storage with normal acid maltase: A familial study with successful heart transplant

Motor neuron ‘bistability’: A pathogenetic mechanism for cramps and myokymia

Rate of protein synthesis in skeletal muscle of normal man and patients with muscular dystrophy: A reassessment

Direct determination of leucine metabolism and protein breakdown in humans using L‐[1‐13C, 15N]‐leucine and the forearm model

Contact Info

Product

Resources

About

Direct determination of leucine metabolism and protein breakdown in humans using L‐[1‐¹³C, ¹⁵N]‐leucine and the forearm model