Norepinephrine is a stress hormone that enhances bacterial growth. We examined the effects of a small inoculum on the norepinephrine-induced growth of species previously reported to be unaffected by norepinephrine. The results indicated that a reduced inoculum density is essential for observing norepinephrineinduced effects. Additional studies using serum-free media suggested that transferrin plays a role in norepinephrine-induced growth.Determining the direct effect of catecholamines on the in vitro growth response of bacteria is one interdisciplinary approach that has been utilized to increase our understanding of the role that stress hormones play in the establishment and progression of infection in a host (21). Although a great deal of evidence suggests that stress-induced neurohormones play a critical role in the outcome of infections (1,3,4,5,7,21,31), the mechanisms by which these hormones act in the host remain unclear. Studies with human and animal models have indicated that increased levels of stress hormones, including norepinephrine (NE), as well as other catecholamines, alter the immune response and physiology of the host (2). High circulatory levels of these hormones are detected in individuals exposed to a variety of physically and/or mentally stressful situations, including trauma, space flight, and sepsis (13,29,31,32). The increases not only may alter the immune function but also may contribute to host morbidity and increased risk of infection (1,7,34). In the current study we reexamined the in vitro growth responses of a variety of bacterial species that were previously tested and reported not to be enhanced by the addition of NE (6,8).The conditions employed in this study include a minimally nutritive low-iron medium previously shown to maintain bacteriostasis (21), a low initial inoculum density of bacteria (10 CFU/ml) in order to capture the lag phase of the bacterial growth curve typically observed in a bacteriostatic medium (21,26), and a concentration of NE (0.0001 M) (14, 15, 26) which corresponds to target tissue levels and not mere plasma spillover (16,18,20). These rigorous conditions better represent in vivo milieus and also allow more suitable evaluation of a growth enhancement effect without the camouflage of rapid bacterial growth encountered when rich medium and large inocula are employed.Using a lower initial inoculum density (approximately 10 CFU/ml), each species tested exhibited NE-induced enhancement of in vitro growth compared to nontreated controls. Cultures of Klebsiella pneumoniae, Pseudomonas aeruginosa, Enterobacter cloacae, Shigella sonnei, and Staphylococcus aureus grown in the presence of NE had shortened lag times and exhibited significant increases in bacterial counts (CFU/ml) at 18 and 24 h (Fig. 1) compared to the control. Moreover, for all of the gram-negative pathogens there were other times when there were significant increases in growth (Fig. 1A to D). S. aureus growth was only moderately affected by NE treatment, and there were significant differences in g...
