Getting a handle on rat familiarization: The impact of handling protocols on classic tests of stress in Rattus norvegicus.

Experimenter familiarization with laboratory rodents through handling prior to experimentation is an important practice in neurobehavioral research and is implicated in stress, study variability, and replicability. Unfortunately, different handling protocols have not been thoroughly examined. Determining optimal experimenter familiarization protocols is expected to reduce animal stress and thus improve welfare and data consistency. The impact of different handling protocols was determined through behavioral assessments (i.e. elevated plus maze, light/dark box, open field) as well as via analysis of fecal boli counts, ultrasonic vocalizations, and blood corticosterone. Male and female Sprague Dawley rats were distributed among three groups: never handled, picked-up, and handled for 5 min once daily over five days. Handled and picked-up rats spent more time in open arms and less time in closed arms of the elevated plus maze and more time in the center and less time at the perimeter of the open field compared to rats that were never handled, indicating that handled and picked-up rats were less anxious than those that were never handled. Male rats consistently defecated more frequently throughout the handling process and throughout behavioral testing, whereas females showed greater concentrations of blood corticosterone. Female rats were found to emit more 50-kHz calls and fewer 22-kHz calls compared to males. The results observed suggest that picking animals up may suffice as a handling method compared to time-intensive handling procedures, and that there are significant sex differences in response to handling.

The Effects of Rearing in a Shelved Environment on Behavioral and Physiological Markers of Welfare in Rats (Rattus norvegicus).

Early-life experiences are critical modifiers of development. An important component of early-life experience is the nature of maternal interactions, which can be modified by stress. During rearing, mothers are typically allocated to single-level cages where they are readily accessible to pups, a potentially stressful scenario not reflective of nature. Accordingly, mothers regularly removed from the rearing environment interact differently with their offspring, leading to long-term changes in offspring physiology and behavior. Such changes commonly include modifications within the hypothalamic-pituitary-adrenal axis, of which corticosterone is a major component. Modifications in the hypothalamic-pituitary-adrenal axis may also be manifested through changes in affective behavior and assessed via tests such as the open field and elevated plus maze as well as via ultrasonic vocalization (USV) analysis. As a means of assessing the impact of rearing in a shelved environment, we allocated mothers to standard single-level cages or cages with an integrated shelf, which allowed the mother to temporarily escape pups. While there were no differences in fecal cortico-sterone, behavior in the elevated plus maze, or USVs, male rats reared in standard cages weighed more, and all standard single-level housed rats spent more time in the center of the open field. The observed differences indicate that allocating nursing mothers to shelved environments throughout the postnatal period has long-lasting effects on offspring behavior that must be considered when establishing dam enrichment protocols.

Structural characterization of a lipopeptide antibiotic A54145E(Asn3Asp9) produced by a genetically engineered strain of Streptomyces fradiae.

A potent new lipopeptide antibiotic, A54145E(Asn(3)Asp(9)), was isolated from the fermentation broth of Streptomyces fradiae DA1489 engineered to delete genes encoding enzymes involved in hydroxylation of Asn(3) and methoxylation of Asp(9). The chemical structure predicted from the genetic changes in the biosynthetic pathway was determined by analyses of chemical transformations, D, L-amino acid quantitation by enantiomer labeling, tandem LC-MS/MS and 2D NMR techniques. These studies confirmed the primary amino acid sequence of A54145E(Asn(3)Asp(9)) predicted from the genetic engineering strategy, and also confirmed the structure and locations of three D-amino acids predicted from bioinformatic studies.

Production of novel lipopeptide antibiotics related to A54145 by Streptomyces fradiae mutants blocked in biosynthesis of modified amino acids and assignment of lptJ, lptK and lptL gene functions.

A54145 is a complex of lipopeptide antibiotics produced by Streptomyces fradiae. A54145 factors are structurally related to daptomycin, with four modified amino acids, only one of which is present in daptomycin. We generated three mutants defective in lptJ, lptK or lptL, whose gene products are involved in the formation of hydroxy-Asn(3) (hAsn(3)) and methoxy-Asp(9) (moAsp(9)). Each of the mutants produced novel lipopeptides related to A54145 and the profiles allowed assignment of functions for those genes. We constructed strains carrying different combinations of these genes coupled with a mutation in the lptI gene involved in the biosynthesis of 3-methyl-Glu(12) (3mGlu(12)), and all recombinants produced novel lipopeptides. One of the compounds displayed very good antibacterial activity in the presence of bovine surfactant, which interacts with daptomycin or A54145E to inhibit their antibacterial activities.

Development of a genetic system for combinatorial biosynthesis of lipopeptides in Streptomyces fradiae and heterologous expression of the A54145 biosynthesis gene cluster.

A54145 factors are calcium-dependent lipopeptide antibiotics produced by Streptomyces fradiae NRRL 18160. A54145 is structurally related to the clinically important daptomycin, and as such may be a useful scaffold for the development of a novel lipopeptide antibiotic. We developed methods to genetically manipulate S. fradiae by deletion mutagenesis and conjugal transfer of plasmids from Escherichia coli. Cloning the complete pathway on a bacterial artificial chromosome (BAC) vector and the construction of ectopic trans-complementation with plasmids utilizing the φC31 or φBT1 site-specific integration system allowed manipulation of A54145 biosynthesis. The BAC clone pDA2002 was shown to harbor the complete A54145 biosynthesis gene cluster by heterologous expression in Streptomyces ambofaciens and Streptomyces roseosporus strains in yields of >100 mg/liter. S. fradiae mutants defective in LptI methyltransferase function were constructed, and they produced only A54145 factors containing glutamic acid (Glu12), at the expense of factors containing 3-methyl-glutamic acid (3mGlu12). This provided a practical route to produce high levels of pure Glu12-containing lipopeptides. A suite of mutant strains and plasmids was created for combinatorial biosynthesis efforts focused on modifying the A54145 peptide backbone to generate a compound with daptomycin antibacterial activity and activity in Streptococcus pneumoniae pulmonary infections.

Identification and characterization of a repeat-in-toxin gene cluster in Vibrio anguillarum.

Vibrio anguillarum is the causative agent of vibriosis in fish. Hemolysins of V. anguillarum have been considered virulence factors during infection. One hemolysin gene, vah1, has been previously identified but does not account for all hemolytic activity. The mini-Tn10Km mutagenesis performed with a vah1 mutant resulted in a hemolysin-negative mutant. The region surrounding the mutation was cloned and sequenced, revealing a putative rtx operon with six genes (rtxACHBDE), where rtxA encodes an exotoxin, rtxC encodes an RtxA activator, rtxH encodes a conserved hypothetical protein, and rtxBDE encode the ABC transporters. Single mutations in rtx genes did not result in a hemolysin-negative phenotype. However, strains containing a mutation in vah1 and a mutation in an rtx gene resulted in a hemolysin-negative mutant, demonstrating that the rtx operon is a second hemolysin gene cluster in V. anguillarum M93Sm. Reverse transcription-PCR analysis revealed that the rtxC and rtxA genes are cotranscribed, as are the rtxBDE genes. Additionally, Vah1 and RtxA each have cytotoxic activity against Atlantic salmon kidney (ASK) cells. Single mutations in vah1 or rtxA attenuate the cytotoxicity of V. anguillarum M93Sm. A vah1 rtxA double mutant is no longer cytotoxic. Moreover, Vah1 and RtxA each have a distinct cytotoxic effect on ASK cells, Vah1 causes cell vacuolation, and RtxA causes cell rounding. Finally, wild-type and mutant strains were tested for virulence in juvenile Atlantic salmon. Only strains containing an rtxA mutation had reduced virulence, suggesting that RtxA is a major virulence factor for V. anguillarum.

Identification and characterization of a hemolysin gene cluster in Vibrio anguillarum.

Vibrio anguillarum is a causative agent of vibriosis in fish. Hemolytic activity has been suggested as a virulence factor by contributing to hemorrhagic septicemia and diarrhea. In order to identify and characterize the hemolysin genes and examine the role of hemolytic activity in virulence, a mini-Tn10Kan mutagenesis clone bank of V. anguillarum was screened. While no hemolysin-negative strains were observed, several mutants with two- to threefold-increased hemolytic activity were found. The region containing the insertion mutation was cloned, sequenced, and found to contain the V. anguillarum hemolysin (vah1) and two other open reading frames, coding for a putative lactonizing lipase (llpA) and a putative phospholipase (plp). The mini-Tn10Kan was inserted into plp. Site-directed mutagenesis of each gene revealed that mutations in vah1 and llpA did not affect hemolytic activity, but insertions into plp caused a two- to threefold increase in hemolysis. Double mutations in plp and either vah1 or llpA resulted in wild-type hemolytic activity. Complementation of plp restored hemolytic activity to wild-type levels. Spectrophotometric determination of hemolysin specific activity revealed that activity on a per cell basis peaked during the first 2 h of growth in LB20. Real-time quantitative reverse transcriptase PCR used to quantitate transcription of the hemolysin genes plp and vah1 in V. anguillarum wild-type strains M93Sm and NB10 revealed that transcription of plp and vah1 peaked at 2 h of growth in LB20. Additionally, expression of vah1 measured in the plp mutant strain, JL01, during the first 2 h of growth was >8 times higher than that in M93Sm. Mutations in plp and llpA did not affect virulence of V. anguillarum. The mutation in vah1 attenuated V. anguillarum virulence in fish. These data show that several genes are responsible for hemolytic activity in V. anguillarum. At least three genes (plp, llpA, and vah1) are responsible for one hemolytic activity. The data also suggest that plp acts as a negative regulator of vah1 and llpA.