Drug – bio-affecting and body treating compositions – Antigen – epitope – or other immunospecific immunoeffector – Bacterium or component thereof or substance produced by said...
Reexamination Certificate
2000-08-09
2004-01-27
Devi, S. (Department: 1645)
Drug, bio-affecting and body treating compositions
Antigen, epitope, or other immunospecific immunoeffector
Bacterium or component thereof or substance produced by said...
C424S093450, C424S262100, C424S184100, C514S002600, C530S350000, C530S825000
Reexamination Certificate
active
06682744
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to Lactobacillus secreted proteins, carbohydrates and lipids and other anaerobic bacterial strains known to exert effects similar to Lactobacillus strains and their use in the prevention and treatment of inflammation. The Lactobacillus secreted proteins, carbohydrates and lipids of the invention can be used to protect intestinal cells against injury caused by disease, infectious agents, toxins, chemicals and other injurious substances. The Lactobacillus secreted proteins, carbohydrates and lipids of the invention can be used, in particular, to prevent and treat neonatal necrotizing enterocolitis.
2. Background of the Prior Art
Digestive problems, which comprise the number one health problem in North America, appear to be occurring with more frequency in recent years. One way to maintain digestive health is to maintain proper intestinal flora. Like many groups of living things, bacteria have “friendly” and “unfriendly” populations. Friendly bacteria play a major role in balancing and counteracting the unfriendly bacteria. When friendly bacteria are not at appropriate levels and when unfriendly bacteria dominate the intestinal flora, health problems can result, including intestinal toxicity and malabsorption of nutrients.
Lactobacilli are one of the most important types of friendly bacteria found in the digestive tract. The bacteria, which are named because they are able to turn milk sugar into lactic acid, play a key role in producing fermented milk, yogurt and cheese. In the early 1900's, Elie Metchinkoff hypothesized that Lactobacilli would provide a hostile environment to unfriendly bacteria in the intestinal environment. This hypothesis was later proven correct.
Lactobacilli have long been known to have positive effects in the intestine especially in maintaining a healthy gut microflora. These organisms generally act when they are available at the action site (intestine) live to exert their effects. These organisms are also known to secrete antimicrobial substances known as bacteriocins, i.e., substances that kill closely-related strains of other bacteria.
Bacterial translocation, i.e., the passage of viable intestinal bacteria across the intestinal epithelial cell layer into the normally sterile extra intestinal tissues, of few bacteria is a normal process and the mucosal immune system (macrophages as first line of defense) along with the consequent immune activation generally prevent detrimental translocation. Secretory immunoglobulins may also prevent the attachment of the same bacteria to the mucosal surface. Bacterial translocation has been suggested to play a role in the etiology of posttraumatic infections and multiple organ failure. This is presumed to be due to breakdown of the intestinal mucosal barrier, permitting pathogenic bacteria to pass into the blood stream.
Lactobacilli are known to prevent pathogenic microorganisms from colonizing on body surfaces (colonization resistance). Administration of antibiotics has a profound effect of the normal flora and can result in colonization with antibiotic-resistant organisms. Antibiotic-mediated disruption on the normal flora can thus lead to infection and its sequele. Commercial preparations of Lactobacilli have been used to restore normal intestinal flora after imbalance created by antibiotic therapy.
Despite significant advances in recent neonatal practice, neonatal necrotizing enterocolitis (NEC) remains a major cause of morbidity and mortality in premature infants. Survivors of NEC can also have considerable long-term morbidity resulting from the disease, including short-gut syndrome, failure to thrive, intestinal stricture and the need for repeated surgery. Although 11% of premature infants born weighing less than 1500 g develop NEC, the cause of the disease remains unclear and no specific treatments are available. A reasonable hypothesis suggests that a combination of factors including prematurity, intestinal ischemia and bacterial colonization lead to stimulation of an inflammatory cascade and a resulting final common pathway of NEC.
Bacterial colonization of the neonatal gastrointestinal tract begins when the infant encounters maternal cervical and vaginal bacteria during delivery. Brooke et al., Aerobic and anaerobic bacterial flora of the maternal cervix and newborn gastric fluid and conjunctiva: A prospective study, Pediatrics, 63:451-455 (1979). By 10 days of age, the majority of healthy full-term newborns are fully colonized with a variety of bacterial species. Long et al., Development of anaerobic fecal flora in healthy newborn infants, J. Pediatr., 91:298-301 (1977). The gut of a premature infant, in contrast, does not provide for proper colonization of the normally heterogeneous bacterial flora and rather demonstrates delayed colonization with only a limited number of bacterial species. Gupta et al., Endemic necrotizing enterocolitis: lack of association with a specific infectious agent, Pediatr. Infect. Dis., 13:725-734 (1994). It has been shown that the stool of preterm infants, with and without NEC, is colonized on the average by fewer than 2.5 species of aerobic bacteria, compared to >10 species in full terms. Gupta et al. (1994). It is believed that limited friendly bacterial colonization at least in part permits pathogenic bacterial overgrowth that could in turn initiate the cascade of events that lead to NEC.
Human milk populates the intestine with Bifidobacteria and Lactobacilli, generating a very different gut flora than that seen after formula feeding. Kevworth et al., Development of cutaneous microflora in premature neonates, Arch. Dis. Child, 67:792 (1992). A number of investigators have found decreased numbers of Lactobacilli in preterm infants; the reduction being correlated with antibiotic therapy and time spent in the incubator. Hall et al., Factors influencing the presence of fecal lactobacilli in early infancy, Arch. Dis. Child, 65:185-188 (1990).
A variety of in vitro studies indicate that endogenous intestinal bacteria can inhibit pathogenic bacteria. For example, Sullivan et al., Inhibitions of growth of C. botulinum by intestinal microflora isolated from healthy infants, Microbial. Ecology in Health and Disease, 1:179-192 (1988), showed that gut isolates of Bfidobacteria, Lactobacilli, Proprionibacteria and Enterococci inhibit
C. botulinum
in vitro. Numerous in vivo studies also lend support to the ability of selected Lactobacilli to modify the intestinal microflora. Conway, Lactobacilli: Fact and fiction, Ch. 16 in The regulatory and protective role of the normal flora, Grun, Midvedt and Norin, eds., Stockton Press, pp. 263-281 (1988).
Studies indicate that it is possible to successfully modify the gut flora in preterm infants by orally administering Bifidobacteria and Lactobacilli during and after antibiotic therapy.
Copending U.S. patent application Ser. No. 08/818,995, the entire contents of which are incorporated herein by reference, discloses that two strains of Lactobacillus, i.e.,
Lactobacillus acidophilus
and
Lactobacillus plantarum
, reduced tissue injury and inflammatory cell infiltration, suggesting that they are useful in prevention and/or treatment of NEC.
Rubaletti et al., Probiotics Feeding Prevents Necrotizing Enterocolitis in Preterm Infants: A Prospective Double-Blind Study, Pediatric Academic Societies and American Academy of Pediatrics Joint Meeting (May 2000), discloses that Lactobacillus GG supplementation reduces the occurrence of NEC and urinary tract infection in pretern infants.
U.S. Pat. No. 5,413,785 discloses a method for reducing the quantity of endotoxin in blood plasma that includes administering Lactobacillus and a biocompatible carrier into the gastrointestinal tract.
Thus, the clinical use of Lactobacillus to enhance intestinal defense against potential luminal pathogens has been tested in vivo; however, an understanding of the mechanisms responsible for the observed protection is lacking. There thus exists a need to understand the underlying mechani
Devi S.
Kelber Steven B.
Piper Rudnick LLP
University of Maryland
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