Induced luteolysis in the primate: rapid loss of luteinizing hormone receptors

The molecular mechanisms involved in luteolysis are still unclear in the primate. This study aimed to investigate the effect of induced luteolysis on the ovarian luteinizing hormone (LH) receptor and the steroidogenic enzyme, 3beta-hydroxysteroid dehydrogenase (3beta-HSD) in the marmoset monkey. Luteolysis was induced in the mid-luteal phase either directly by systemic prostaglandin F2alpha (PGF2alpha), or indirectly by LH withdrawal using systemic gonadotrophin releasing hormone antagonist (GnRHant) treatment. The LH receptor was studied by isotopic mRNA in-situ hybridization and in-situ ligand binding and 3beta-HSD expression was studied using isotopic mRNA in-situ hybridization and immunohistochemistry. Induced luteolysis was associated with a reduction in the expression of LH receptor (P < 0.0001) and 3beta-HSD mRNA, closely followed by a reduction in the LH receptor (P < 0.05) and 3beta-HSD protein concentrations within 24 h. There were no differences in the findings whether luteolysis was induced with PGF2alpha or GnRHant. This study shows that disparate mechanisms to induce luteolysis in the primate result in an identical rapid loss of the LH receptor and 3beta-HSD. In conclusion, induced luteolysis leads to rapid loss of the steroidogenic pathway in luteal cells.      

Physical Factors affecting Maximum Precipitation of the BSA-AntiBSA Fowl System

Studies were made ascertaining the effects of temperature and length of incubation period on the amount of precipitate formed in the BSA-antiBSA fowl serum system. The specific factors considered were centrifugal temperature, temperature of incubation and length of incubation. Reactions were analysed for the entire precipitin curve, using doubling dilutions of antigen, and also for the region of equivalence using intervals of 1 μg. nitrogen.

Reactions mixtures were incubated at 37° for 3 hours and then centrifuged at 22° or at 4° and the precipitate was analysed for total N precipitated. In addition, secondary incubation periods, following this initial incubation treatment of 3 hours at 37°, were made. The secondary periods were either 18, 66 or 118 hours at 4° or 18 hours at 37° and were followed by centrifugation at either 22° or 4°.

Evaluation of the data showed centrifugation at 22° gave higher amounts of precipitate than at 4° in all cases and the differences were statistically significant in most of the instances. In eighteen of the twenty sera tested, precipitation was at a maximum after 3 hours' incubation at 37° and warm centrifugation in contrast to additional incubation periods and/or cold centrifugation.

     

Conventional methods versus 16S ribosomal DNA sequencing for identification of nontuberculous mycobacteria: cost analysis

The clinical profile of nontuberculous mycobacteria (NTM) has been raised by the human immunodeficiency virus and AIDS pandemic. Different laboratory techniques, often molecular based, are available to facilitate the rapid and accurate identification of NTM. The expense of these advanced techniques has been questioned. At the National Reference Center for Mycobacteriology and the Health Sciences Center, University of Manitoba, in Winnipeg, Canada, we performed a direct cost analysis of laboratory techniques for commercial DNA probe-negative (Gen-Probe, Inc., San Diego, Calif.), difficult-to-identify NTM. We compared the costs associated with conventional phenotypic methodology (biochemical testing, pigment production, growth, and colony characteristics) and genotypic methodology (16S ribosomal DNA [rDNA] sequence-based identification). We revealed a higher cost per sample with conventional methods, and this cost varied with organism characteristics: $80.93 for slowly growing, biochemically active NTM; $173.23 for slowly growing, biochemically inert NTM; and $129.40 for rapidly growing NTM. The cost per sample using 16S rDNA sequencing was $47.91 irrespective of organism characteristics, less than one-third of the expense associated with phenotypic identification of biochemically inert, slow growers. Starting with a pure culture, the turnaround time to species identification is 1 to 2 days for 16S rDNA sequencing compared to 2 to 6 weeks for biochemical testing. The accuracy of results comparing both methodologies is briefly discussed. 16S rDNA sequencing provides a cost-effective alternative in the identification of clinically relevant forms of probe-negative NTM. This concept is not only useful in mycobacteriology but also is highly applicable in other areas of clinical microbiology.     

Genetic damage detected in CD-1 mouse pups exposed perinatally to 3'-azido-3'-deoxythymidine or dideoxyinosine via maternal dosing, nursing, and direct gavage: II. Effects of the individual agents compared to combination treatment

We previously reported extraordinary increases in micronucleated erythrocytes in CD-1 mouse pups exposed to 3'-azido-3'-deoxythymidine (AZT) and dideoxyinosine (ddI; 50/250, 75/375, 150/750 mg/kg/day AZT/ddI) by gavage throughout gestation and lactation, followed by direct pup dosing beginning postnatal day (PND) 4 (Bishop et al. [2004]: Environ Mol Mutagen 43: 3-9). That study was conducted to explore the potential for genetic damage in newborns exposed perinatally to antiretrovirals in order to reduce maternal-infant transmission of HIV-1. Because dramatic increases in frequencies of micronucleated erythrocytes were seen in exposed pups, additional studies were conducted to clarify the relative contribution of each drug to the observed damage. Pregnant CD-1 mice were administered AZT (50, 75, 150 mg/kg/day) or ddI (250, 375, 750 mg/kg/day) by gavage twice daily in equal fractions beginning prior to mating and continuing throughout gestation and lactation. Direct pup dosing (same regimens) began on PND 4. Peripheral blood erythrocytes of male pups were screened for micronuclei on PNDs 1, 4, 8, and 21. Significant increases in micronucleated erythrocytes were observed in pups and dams exposed to AZT at all doses and sampling times. The highest micronucleus levels were observed in pups on PND 8 after the initiation of direct dosing. In contrast, effects seen in pups and dams treated with ddI were minimal. These results demonstrate that AZT, a component of many anti-HIV combination therapies, induces chromosomal damage in perinatally exposed neonatal mice. Comparison of micronucleated cell frequencies induced by AZT alone or in combination with ddI suggests that ddI potentiates AZT-induced chromosomal damage following direct exposure.     

A recent polyploidy superimposed on older large-scale duplications in the Arabidopsis genome

The Arabidopsis genome contains numerous large duplicated chromosomal segments, but the different approaches used in previous analyses led to different interpretations regarding the number and timing of ancestral large-scale duplication events. Here, using more appropriate methodology and a more recent version of the genome sequence annotation, we investigate the scale and timing of segmental duplications in Arabidopsis. We used protein sequence similarity searches to detect duplicated blocks in the genome, used the level of synonymous substitution between duplicated genes to estimate the relative ages of the blocks containing them, and analyzed the degree of overlap between adjacent duplicated blocks. We conclude that the Arabidopsis lineage underwent at least two distinct episodes of duplication. One was a polyploidy that occurred much more recently than estimated previously, before the Arabidopsis/Brassica rapa split and probably during the early emergence of the crucifer family (24-40 Mya). An older set of duplicated blocks was formed after the monocot/dicot divergence, and the relatively low level of overlap among these blocks indicates that at least some of them are remnants of a larger duplication such as a polyploidy or aneuploidy.     

A functional promoter polymorphism in the macrophage migration inhibitory factor (MIF) gene associated with disease severity in rheumatoid arthritis

The macrophage migration inhibitory factor (MIF) is a potent pro-inflammatory cytokine and regulates the anti-inflammator effects of glucocorticoids. An important role for MIF within the cytokine cascade is to act in concert with endogenous glucocorticoids to control the set-point and magnitude of the inflammatory response. Elevated expression of MIF in the circulation and in the synovial joint has been documented in rheumatoid arthritis. MIF also has been linked to the development of joint damage and disease pathology in experimental animal models. We describe herein a novel CATT-tetranucleotide repeat polymorphism at position -794 of the human Mif gene and show that it functionally affects the activity of the MIF promoter in gene reporter assays. We describe four genotypes which comprise 5, 6, 7, or 8-CATT repeat units and show that the 5-CATT allele has the lowest level of basal and stimulated MIF promoter activity in vitro. The presence of the low expressing, 5-CATT repeat allele correlated with low disease severity in a cohort of rheumatoid arthritis patients.     

Glucose and lactate kinetics after endotoxin administration in dogs.

We studied the effects of E. coli endotoxin on the glucose and lactate kinetics in dogs by means of the primed constant infusion of [6(-3)H] glucose and Na-L-(+)-[U-14C] lactate. The infusion of endotoxin induced a transient hyperglycemic level, followed by a steady fall in plasma glucose to hypoglycemic levels. The rate of appearance (Ra) and the rate of disappearance (Rd) of glucose were both significantly elevated (P less than .05) for 150 min after endotoxin, after which neither differed from the preinfusion value. The metabolic clearance rate of glucose was significantly elevated at all times 30 min postendotoxin. By 30 min postendotoxin, Ra and Rd of lactate, plasma lactate concentration, and the percent of glucose turnover originating from lactate were significantly elevated and remained so for the duration of the experiment. We concluded that after endotoxin hypoglycemia developed because of an enhanced peripheral uptake of glucose and a failure of the liver to maintain an increased Ra of glucose. We also concluded that lactate became an important precursor for gluconeogenesis and an important metabolic substrate.