Antibiotic resistant enterococci in laboratory reared stored-product insect species and their diets

Byington, Sarah

January 1900

Master of Science / Department of Grain Science and Industry / Bhadriraju Subramanyam / Hulya Dogan / Stored-product insects and stored products from feed mills and swine farms contain antibiotic and potentially virulent Enterococcus faecalis, Enterococcus faecium, Enterococcus casseliflavus, Enterococcus gallinarum, and Enterococcus hirae. Stored-product insects can serve as potential vectors of these enterococci which possess antibiotic resistance genes that can be spread by horizontal transfer to more serious human pathogens. In the present study, the species and concentration of enterococci from adults and larvae of key stored-product insects and insect diets and their antibiotic resistance profile were characterized. Adults of five species out of the 15 stored-product insects were tested positive for enterococci, and these included Callosobruchus maculatus (F.), Sitophilus granarius (L.), Stegobium paniceum (L.), Lasioderma serricorne (F.), and Sitophilus zeamais Motschulsky. Three enterococcal species (E. casseliflavus, E. faecalis, and E. faecium) were found in 53 to 97% of the 30 adults screened for each insect species, and the enterococcal concentrations ranged from 1.4 x 10³ to 3.1 x 10⁶ CFU/adult. About 10 to 100% of the mature larvae of the respective five insect species had these three enterococcal species with concentrations ranging from 0.3 x 10¹ to 1.4 x 10⁵ CFU/larvae. Only three of the eight insect diets screened had the same three enterococci species in addition to E. gallinarum and E. hirae at concentrations of 0.2 x 10¹ to 5.9 x 10³ CFU/g. The greatest enterococcal concentration was found in C. maculatus adults but not in their larvae or diet (cowpeas). In C. maculatus during a nine-day period after adult eclosion, the enterococcal concentrations increased exponentially from 0.6 x 10¹ to a maximum of 4.1 x 10⁷ CFU/adult. Enterococci were detected in the fecal material of C. maculatus during a four-day period with a maximum concentration of 3.3 x 10³ CFU/adult on the fourth day. A total of 298 enterococcal isolates from adults, larvae, and diets were represented by E. faecalis (51.7% of the total), E. faecium (19.1%), E. casseliflavus (18.8%), E. gallinarum (5.7%), and E. hirae (4.7%). Enterococci were phenotypically resistant to quinupristin (51.3% of the total), erythromycin (38.9%), tetracycline (30.1%), enrofloxacin (29.2%), doxycycline (11.5%), and tigecycline (2.7%). All isolates were susceptible to ampicillin and vancomycin.

Stored product insects

Laboratory cultures

Insect diets

Enterococci

Antibiotic resistance

Spatial distribution, dispersal behavior and population structure of Tribolium castaneum herbst (Coleoptera: tenebrionidae)

Semeao, Altair Arlindo

January 1900

Doctor of Philosophy / Department of Entomology / James F. Campbell / Phillip E. Sloderbeck / Robert "Jeff" J. Whitworth / Knowledge of factors influencing the establishment, persistence and distribution of stored-product pests aids the development of effective Integrated Pest Management (IPM) programs in food storage and processing facilities. This research focused primarily on Tribolium castaneum, which is one of the most important pests of mills. Populations of T. castaneum from different food facilities can potentially be interconnected by either their own dispersal behavior or by human transportation. Population genetic structure analyses based on microsatellites and other insertion-deletion polymorphisms (“indels”) showed that populations from different mills around the US are genetically distinct from each other, but the level of differentiation was not correlated with the geographic distance. A potential source of insect infestation within a food facility is spillage that accumulates outside or movement from bulk storage facilities on site. Results from three facilities showed that most stored-product species were captured both inside and outside buildings, but T. castaneum was rarely captured outside of the facilities. Spatial distribution of all species outside was associated with the proximity of buildings, not necessarily with areas with accumulated spillage. T. castaneum populations inside facilities are potentially exposed to frequent genetic bottlenecks resulting from structural fumigations. Changes in allele frequencies through time, based on the analysis of microsatellites and other indels in individuals collected in a mill, confirmed bottleneck effects. To understand how spatial distribution of T. castaneum within a mill could be influenced by environmental and physical factors, a range of variables were measured at each trap location. There was significant variation among trap locations regarding beetle captures and the variables measured, but increase in beetle captures correlated only with increase in temperature and spillage production. Tribolium castaneum response to visual cues could influence attraction to pheromone and kairomone olfactory cues used in traps. Results of laboratory experiments showed that adults respond to tall narrow black shapes and placing traps in front of these shapes can increase captures. This research provides new insights into factors influencing the spatial distribution of T. castaneum and could help in improving monitoring programs for this important pest of the food industry.

Tribolium castaneum

Spatial distribution

Population structure

stored-product insects

Agriculture, Agronomy (0285)

Biology, Entomology (0353)

Packaging technologies for the control of stored-product insects

Scheff, Deanna Sue

January 1900

Doctor of Philosophy / Department of Grain Science and Industry / Subramanyam Bhadriraju / Hulya Dogan / Larvae of the Indian meal moth, Plodia interpunctella (Hübner), have the ability to invade or penetrate packaging materials and infest the food within. Energy bars with three polypropylene packaging types were challenged with eggs (for first instars), third, and fifth instars of P. interpunctella to determine package resistance to larvae at 28°C and 65% r.h. to determine which provided the greatest protection against P. interpunctella larval penetration. Third and fifth instars showed a higher propensity to infest all packaging variations. First instars showed a reduction in package pentration abiltiy compared to third and fifth instars. Methoprene is an insect growth regulator labeled in the USA for use as an aerosol spray, a residual surface treatment, and as a grain protectant, and recently has been impregnated into a polymer-based packing film to prevent insect infestations of packaged products. The objectives of these studies were 1) determine the effect of short term exposure time and temperature on four week old larvae, continual exposure on egg-to-adult emergence of beetles, and sub-lethal effect on adults of the red flour beetle, Tribolium castaneum (Herbst) and warehouse beetle, Trogoderma variabile Ballion, on the inside and outside surfaces of methoprene-treated woven packaging material at 27 and 32°C at 60% r.h.; 2) evaluate fecundity, egg hatch, and egg-to-adult emergence of T. castaneum and T. variabile, when exposed to two methoprene-impregnated polymer packaging on the inside and outside surfaces at 27 and 32°C at 60% r.h.; and 3) determine the effect of methoprene-treated foil packaging on larval emergence, penetration, and invasion ability of T. variabile and P. interpunctella at 27°C and 60% r.h. Short term exposure results indicated that adult emergence from larvae of T. castaneum and T. variabile decreased with increasing exposure time. The number of eggs laid per female of T. castaneum and T. variabile did not vary from their controls. Continual exposure demonstrated 100% supression of T. castaneum adult emergence, irrespective of exposure to outside or inside surfaces. T. variabile exposed to inside surfaces were unaffected and normal adult emergence was reduced in those exposed to outside surfaces.. The number of T. variabile eggs laid per female was not significantly different among polymer packaging types. The methoprene-treated polyethylene terephthalate to polyethylene packaging, PET-PE reduced the number of T. castaneum eggs laid per female. Both polymer packaging reduced the percent hatch of both species. No T. castaneum adults emerged on the inside surface of PET-PE and both sides of the polyethlyene to polyethylene (PE-PE). Egg-to-adult emergence of T. variabile was arrested at the pupal stage on the outside surface of PE-PE packaging. The PET-PE packaging greatly reduced the number of normal adults by 87 to 97% when exposed to inside surfaces at both temperatures. The foil packaging had no significant effect on hatch of either species. T. variabile were unable to penetrate/invade any foil packages. P. interpunctella invaded all packaging containing pinholes. Therefore, continual exposure of T. castaneum and T. variabile to methoprene impregnated packaging could be a vaiable tool to protect food packages.

Stored-product insects

methoprene

packaging resistance

Plodia interpunctella

Tribolium castaneum

Trogoderma variabile

Polyphasic characterization of antibiotic resistant and virulent Enterococci isolated from animal feed and stored-product insects

Channaiah, Lakshmikantha H.

January 1900

Doctor of Philosophy / Department of Grain Science and Industry / Subramanyam Bhadriraju / Ludek Zurek / Feed samples and live stored-product insects from feed mills and swine farms were collected and cultured for Enterococcus spp. The mean concentration of enterococci in insect and feed were 2.7 ± 0.5 × 101 cfu/insect and 6.3 ± 0.7 × 103 cfu/g respectively. A total of 362 isolates of enterococci collected from 89 feed samples and 228 stored-product insects were identified to the species level using PCR. These isolates were represented by Enterococcus casseliflavus (53.0%), E. gallinarum (20.4%), E. faecium (16.2%), E. hirae (5.2%), and E. faecalis (5.0%). Enterococci were phenotypically resistant to tetracycline (48.0%), erythromycin (14.3%), streptomycin (16.8%), kanamycin (12.1%), ciprofloxacin (11.0%), ampicillin (3.3%), and chloramphenicol (1.1%). All isolates were susceptible to vancomycin and gentamicin. Tetracycline resistance was encoded by tetM (50.0%), tetO (15.1%), tetK (0.5%), tetS (0.2%) and other unknown tetracycline determinants. Enterococci carried virulence genes including gelatinase (gelE; 21.5%), an enterococcus surface protein (esp; 1.9%), and cytolysin (cylA; 2.2%). An aggregation substance (asa1) gene was detected in 61.0% of E. faecalis isolates. Fifty perncet of E. faecalis isolates were phenotipically tested positive for aggregation substances. Enterococci with cylA genes were hemolytic (52.0%) and with gelE genes were gelatinolytic (18.5%). The ermB gene, encoding erythromycin resistance was detected in 8.8% of the total isolates. The Tn916/1545 family of conjugative transposons was detected in 10.7% of the isolates. Laboratory experiments showed that adults of the red flour beetle, Tribolium castaneum (Herbst), fed on poultry and cattle feeds inoculated with E. faecalis OG1RF:pCF10, were able to successfully acquire enterococci and contaminate sterile poultry and cattle feeds. To assess the potential of horizontal gene transfer, conjugation assays were carried out with E. faecalis using a donor (wild strains) and recipient (E. faecalis OG1SSP) in ratio of 1:10. Only one isolate (1 out of 18 E. faecalis) could transfer tetM to a recipient using broth mating. However, filter mating assay, followed by PCR confirmation revealed that 89.0% (16 out of 18 E. faecalis) of isolates could transfer tetM to E. faecalis. Transfer ratios of transconjugant per recipients ranged from 2.6 × 10-4 to 1 × 10-9. In summary, feed (52.0%) and stored-product insects (41.6%) collected from feed mills and swine farms carried antibiotic-resistant and potentially virulent enterococci. Our study showed that T. castaneum, a pest commonly associated with feed, served as a potential vector for enterococci in the feed environment. Conjugation assays followed by PCR confirmed presence of the tetM gene on a mobile genetic element(s) such as Tn916 and may be horizontally transferred to other Enterococcus species and to other bacteria of clinical significance.

Enterococci

Antibiotic resistance

virulence

animal feed

stored-product insects

Biology, Microbiology (0410)