Francis A. Beall scite author profile

BEALL, FRANCIS A. (U.S. Army Chemical Corps, Frederick, Md.), MARTHA J. TAYLOR, AND CURTIS B. THORNE. Rapid lethal effect in rats of a third component found upon fractionating the toxin of Bacillus anthracis. J. Bacteriol. 83:1274-1280. 1962.-Rats were found to be more susceptible to the lethal effect of toxin produced by Bacillus anthracis in vitro than were several species considered less resistant to anthrax. Rats were killed much faster by less toxin per gram of body weight than were mice. Guinea pigs survived

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The Pathogenesis of the Lethal Effect of Anthrax Toxin in the Rat

Beall¹,

Dalldorf²

1966

Journal of Infectious Diseases

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A Protein from Polymorphonuclear Leukocytes (LEM) Which Affects the Rate of Hepatic Amino Acid Transport and Synthesis of Acute-Phase Globulins

et al. 1975

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A proteinaceous secretion from phagocytizing polymorphonuclear leukocytes, termed "leukocytic endogenous mediator" (LEM), has been shown to have marked effects on hepatic amino acid transport and RNA and protein synthesis. A single injection of LEM results in a marked accumulation of labeled nonmetabolizable model amino acids in the liver of normal rats. The LEM-stimulated uptake of amino acids by liver was observed in adrenalectomized, hypophysectomized, thyroidectomized, or diabetic rats and could not be duplicated by pharmacological doses of a large variety of hormones. In addition, LEM stimulated an increased uptake of alpha-aminoisobutyric acid by isolated livers during their perfusion in vitro. LEM also stimulated an increased incorporation of orotic acid into hepatic RNA of intact rats, especially into the bound ribosomal fraction. This increased synthesis of RNA preceded an enhanced hepatic production of a number of the acute-phase plasma globulins. LEM did not stimulate the adenylate cyclase-cAMP system in liver and was not found to utilize this system as a second messenger. Thus, the effects of LEM in stimulating hepatic amino acid transport appear to be direct, without mediation by other hormones, and to be independent of cAMP. On the other hand, the ability of LEM to stimulate RNA and acute phase globulin synthesis in liver may require the presence of physiological quantities of hormones such as adrenal corticoids.

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Role of the Liver in Regulation of Ketone Body Production during Sepsis

Wannemacher¹,

Pace²,

Beall³

et al. 1979

J. Clin. Invest.

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A B S T R A C T During caloric deprivation, the septic host may fail to develop ketonemia as an adaptation to starvation. Because the plasma ketone body concentration is a function of the ratio of hepatic production and peripheral usage, a pneumococcal sepsis model was used in rats to measure the complex metabolic events that could account for this failure, including the effects of infection on lipolysis and esterification in adipose tissue, fatty acid transport in plasma and the rates of hepatic ketogenesis and whole body oxidation of ketones. Some of the studies were repeated with tularemia as the model infection. From these studies, it was concluded that during pneumococcal sepsis, the failure of rats to become ketonemic during caloric deprivation was the result ofreduced ketogenic capacity of the liver and a possibly decreased hepatic supply of fatty acids. The latter appeared to be a secondary consequence of a severe reduction in circulating plasma albumin, the major transport protein for fatty acids, with no effect on the degree of saturation of the albumin with free fatty acids. Also, the infection had no significant effect on the rate of lipolysis or release of fatty acids from adipose tissue. Ketone body usage (oxidation) was either unaffected or reduced during pneumococcal sepsis in rats. Thus, a reduced rate of ketone production in the infected host was primarily responsible for the failure to develop starvation ketonemia under these conditions.

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Capillary Thrombosis as a Cause of Death in Anthrax

Dalldorf¹,

Beall²

1966

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Francis A. Beall

RAPID LETHAL EFFECT IN RATS OF A THIRD COMPONENT FOUND UPON FRACTIONATING THE TOXIN OF BACILLUS ANTHRACIS

The Pathogenesis of the Lethal Effect of Anthrax Toxin in the Rat

A Protein from Polymorphonuclear Leukocytes (LEM) Which Affects the Rate of Hepatic Amino Acid Transport and Synthesis of Acute-Phase Globulins

Role of the Liver in Regulation of Ketone Body Production during Sepsis

Capillary Thrombosis as a Cause of Death in Anthrax

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