Synthesis of deoxyhypusine in eukaryotic initiation factor 4D in rat hepatoma cells.

Murphey, Roberta Jean.

January 1989

The aim of this research was to study the mechanism involved in the synthesis of deoxyhypusine, the intermediate step in the synthesis of the amino acid hypusine. Oeoxyhypusine is derived from the butylamine moiety of a spermidine molecule which is added to the famino group of one lysine in the eukaryotic initiation factor 40 (eIF-4D). Initially, a hepatoma tissue cell (HTC) lysate with a pH of 9.5 in glycine buffer and with a depleted spermidine pool supported deoxyhypusine synthesis in protein. Since CHES buffer was as efficient as glycine buffer, the synthesis of deoxyhypusine was pH dependent (optimum ∼9.2) and not buffer dependent. Next, several inhibitors were used in the cell-free system to block deoxyhypusine synthesis. Only guazatine, a plant amine oxidase inhibitor, completely inhibited deoxyhypusine synthesis. This suggested that an oxidase was involved in deoxyhypusine synthesis. In addition factors were investigated as possible allosteric stimulators of deoxyhypusine formation. NAD⁺, NADH, FAD⁺, FMN⁺, and as nicotinamide were tested for effects on deoxyhypusine formation. NAD⁺ was the most efficient stimulator, but NAOH and nicotinamide also stimulated deoxyhypusine formation. Although these factors increased the synthesis of deoxyhypusine, these assays were done in buffer with low concentrations of spermidine. When the spermidine pool was replenished, these effects were diminished. Thus, it appeared that NAD⁺ may lower the apparent K(m) for spermidine without affecting the V(max) of deoxyhypusine synthesis. The inhibition of deoxyhypusine synthesis by guazatine implied the involvement of a polyamine oxidase. Therefore, the effect of oxygen depletion on deoxyhypusine formation was investigated. The depletion of oxygen reduced the level of deoxyhypusine synthesis to 12% of the control. This activity could be restored to 85% by reoxygenation of the lysate. Thus in support of the suggestion made by the guazatine data, a spermidine oxidase in involved in deoxyhypusine formation. The most significant contribution of this work was the development of a cell free system to study deoxyhypusine. This synthesis required an unusually high pH in vitro and required polyamine depletion (Chapter 2). In addition, synthesis requires a unique spermidine oxidase that is blocked by a guazatine and is conditionally stimulated by NAD⁺ (Chapter 3).

Amino acids -- Synthesis.

Biosynthesis.

Zirconium- and titanium-mediated syntheses of (-)-α-kainic acid and related studies

Campbell, Andrew Duncan

January 2000

No description available.

547

Amino acids

Determinants of growth in the early mouse embryo

Lamb, Victoria Kay

January 1996

No description available.

572.8

Amino acids

The neuroprotective effects of remacide hydrochloride in patients undergoing elective coronary artery bypass surgery

Arrowsmith, Joseph Edmund

January 2001

No description available.

610

Amino acids

Identification and characterisation of a novel form of PKC-zeta

Rao, Sudha

January 1999

No description available.

572.8

Amino acids; DNA

Synthetic studies related to chirally-labelled amino-acids

August, R. A.

January 1987

No description available.

547

Synthesis of amino acids

Genetic and biochemical studies of D-amino acid dehydrogenase of Pseudomonas aeruginosa

Magor, A. M.

January 1985

No description available.

579

Bacterial amino acids

The electrochemical nitration of proteins and protein model systems

Campbell, Colin James

January 1997

No description available.

541

Amino acids; Enzymes

Asymmetric synthesis of cyclic amines

Smethurst, Chris

January 1998

No description available.

547

Amino acids

Synthetic studies related to natural products

Malhi, B. S.

January 1988

No description available.

547

Synthesis of amino acids