The use of mid-infrared spectrometry to estimate the ration composition of lactating dairy cows.

The composition of cow milk is strongly affected by the feeding regimen. Because milk components are routinely determined using mid-infrared (MIR) spectrometry, MIR spectra could also be used to estimate an animal's ration composition. The objective of this study was to determine whether and how well amounts of dry matter intake and the proportions of concentrates, hay, grass silage, maize silage, and pasture in the total ration can be estimated using MIR spectra at an individual animal level. A total of 10,200 milk samples and sets of feed intake data were collected from 90 dairy cows at 2 experimental farms of the Agricultural Research and Education Centre in Raumberg-Gumpenstein, Austria. For each run of analysis, the data set was split into a calibration and a validation data set in a 40:60 ratio. Estimated ration compositions were calculated using a partial least squares regression and then compared with the respective observed ration compositions. In separate analyses, the factors milk yield and concentrate intake were included as additional predictors. To evaluate accuracy, the coefficient of determination (R2) and ratio to performance deviation were used. The highest R2 values (for kg of dry matter intake/for % of ration) for the individual feedstuffs were as follows: pasture, 0.63/0.66; grass silage, 0.32/0.43; concentrate intake, 0.39/0.34; maize silage, 0.32/0.33; and hay, 0.15/0.16. Estimation of groups of feedstuffs (forages, energy-dense feedstuffs) mostly resulted in R2 values >0.50. Including the parameters milk yield or concentrate intake improved R2 values by up to 0.21, with an average improvement of 0.04. The results of this study indicate that not all ration components may be estimated equally accurately. Even if some estimates are good on average, there may be strong deviations between estimated and observed values in individual data sets, and therefore individual estimates should not be overemphasized. Further research including pooled samples (e.g., bulk milk, farm samples) or variations in ration composition is called for.

Pneumococcal IgA1 protease subverts specific protection by human IgA1.

Bacterial immunoglobulin A1 (IgA1) proteases may sabotage the protective effects of IgA. In vitro, both exogenous and endogenously produced IgA1 protease inhibited phagocytic killing of Streptococcus pneumoniae by capsule-specific IgA1 human monoclonal antibodies (hMAbs) but not IgA2. These IgA1 proteases cleaved and reduced binding of the the effector Fcα1 heavy chain but not the antigen-binding F(ab)/light chain to pneumococcal surfaces. In vivo, IgA1 protease-resistant IgA2, but not IgA1 protease-sensitive IgA1, supported 60% survival in mice infected with wild-type S. pneumoniae. IgA1 hMAbs protected mice against IgA1 protease-deficient but not -producing pneumococci. Parallel mouse sera with human IgA2 showed more efficient complement-mediated reductions in pneumococci with neutrophils than did IgA1, particularly with protease-producing organisms. After natural human pneumococcal bacteremia, purified serum IgG inhibited IgA1 protease activity in 7 of 11 patients (64%). These observations provide the first evidence in vivo that IgA1 protease can circumvent killing of S. pneumoniae by human IgA. Acquisition of IgA1 protease-neutralizing IgG after infection directs attention to IgA1 protease both as a determinant of successful colonization and infection and as a potential vaccine candidate.

Novel molecular variants of allele I of the Escherichia coli P fimbrial adhesin gene papG.

P fimbriae of extraintestinal pathogenic Escherichia coli mediate digalactoside-specific adherence via the tip adhesin molecule PapG, which occurs in three known variants (I to III), which are encoded by the corresponding three alleles of papG. In the present study, newly discovered variants of papG allele I and the respective wild-type source strains were characterized. One of the new papG allele I variants conferred a unique agglutination phenotype that combined the phenotypes associated with papG alleles I, II, and III. Comparative hydrophilicity analysis of predicted PapG peptides revealed regions that might explain the observed phenotypic similarities and differences between the PapG variants. The new papG allele I variants occurred either as the sole papG allele or together with both papG alleles II and III, rather than with only papG allele III, as in archetypal strains J96 and CP9. They also occurred in the absence of the usual F13 papA allele. One of the new papG allele I variants occurred in a serogroup O6 strain that, according to random amplified polymorphic DNA analysis, was phylogenetically distant from the "J96-like" clonal group of E. coli O4:H5, which includes all previously identified examples of papG allele I. Cluster analysis of nucleotide and predicted peptide sequences suggested that papG allele I represents the earliest evolutionary branch from a common papG ancestor. These results demonstrate unexpected diversity within papG allele I and, together with previous findings, suggest that the J96-like clonal group of E. coli O4:H5 may represent the original source of papG within the species.

Telomere maintenance by recombination in human cells.

Telomeres of eukaryotic chromosomes contain many tandem repeats of a G-rich sequence (for example, TTAGGG in vertebrates). In most normal human cells, telomeres shorten with each cell division, and it is proposed that this limits the number of times these cells can replicate. Telomeres may be maintained in germline cells, and in many immortalized cells and cancers, by the telomerase holoenzyme (first discovered in the ciliate Tetrahymena), which uses an RNA subunit as template for synthesis of telomeric DNA by the reverse transcriptase catalytic subunit. Some immortalized human cell lines and some tumours maintain their telomeres in the absence of any detectable telomerase activity by a mechanism referred to as alternative lengthening of telomeres (ALT). Here we show that DNA sequences are copied from telomere to telomere in an immortalized human ALT cell line, indicating that ALT occurs by means of homologous recombination and copy switching.

Evidence of commonality between canine and human extraintestinal pathogenic Escherichia coli strains that express papG allele III.

Although dogs have been proposed as carriers of extraintestinal pathogenic Escherichia coli (ExPEC) with infectious potential for humans, presumed host species-specific differences between canine and human ExPEC strains have cast doubt on this hypothesis. The recent discovery that allele III of papG (the P fimbrial adhesin gene) predominates among human cystitis isolates and confers an adherence phenotype resembling that of canine ExPEC prompted the present reevaluation of the canine-human ExPEC connection. Sixteen paired pap-positive urine and rectal E. coli isolates from dogs with urinary tract infection were studied. papG (adhesin) and papA (pilin) allele type, agglutination phenotypes, virulence factor genotypes, and randomly amplified polymorphic DNA and pulsed-field gel electrophoresis fingerprints were analyzed and compared with those of human ExPEC controls. The 16 canine strains contained predominantly papG allele III. Agglutination phenotypes segregated strictly according to papG allele status and were homogeneous among strains with the same papG allele profile irrespective of their human versus canine origin. Canine and human PapG variant III peptide sequences were highly homologous, without host species-specific differences. The most prevalent canine papA allele was F48, a novel variant recently identified among human urosepsis isolates. In addition to pap, human ExPEC-associated virulence genes detected among the canine strains included sfa/focDE, sfaS, fyuA, hlyA, cnf1, cdtB, kpsMT-II and -III, rfc, traT, ompT, and a marker for a pathogenicity-associated island from archetypal human ExPEC strain CFT073. Molecular fingerprinting confirmed the fecal origin of all but one canine urine isolate and showed one pair of O6 canine urine and fecal isolates to be extremely similar to an O6 human urosepsis isolate with which they shared all other genotypic and phenotypic characteristics analyzed. These data demonstrate that canine ExPEC strains are similar to, and in some instances essentially indistinguishable from, human ExPEC strains, which implicates dogs and their feces as potential reservoirs of E. coli with infectious potential for humans.

Analysis of the F antigen-specific papA alleles of extraintestinal pathogenic Escherichia coli using a novel multiplex PCR-based assay.

Polymorphisms in PapA, the major structural subunit and antigenic determinant of P fimbriae of extraintestinal pathogenic Escherichia coli, are of considerable epidemiological, phylogenetic, and immunotherapeutic importance. However, to date, no method other than DNA sequencing has been generally available for their detection. In the present study, we developed and rigorously validated a novel PCR-based assay for the 11 recognized variants of papA and then used the new assay to assess the prevalence, phylogenetic distribution, and bacteriological associations of the papA alleles among 75 E. coli isolates from patients with urosepsis. In comparison with conventional F serotyping, the assay was extremely sensitive and specific, evidence that papA sequences are highly conserved within each of the traditionally recognized F serotypes despite the diversity observed among F types. In certain strains, the assay detected serologically occult copies of papA, of which some were shown to represent false-negative serological results and others were shown to represent the presence of nonfunctional pap fragments. Among the urosepsis isolates, the assay revealed considerable segregation of papA alleles according to O:K:H serotype, consistent with vertical transmission within clones, but with exceptions which strongly suggested horizontal transfer of papA alleles between lineages. Sequencing of papA from two strains that were papA positive by probe and PCR but F negative in the new PCR assay led to the discovery of two novel papA variants, one of which was actually more prevalent among the urosepsis isolates than were several of the known papA alleles. These findings provide novel insights into the papA alleles of extraintestinal pathogenic E. coli and indicate that the F PCR assay represents a versatile new molecular tool for epidemiological and phylogenetic investigations which should make rapid, specific detection of papA alleles available to any laboratory with PCR capability.

Killing of Streptococcus pneumoniae by capsular polysaccharide-specific polymeric IgA, complement, and phagocytes.

The role of IgA in the control of invasive mucosal pathogens such as Streptococcus pneumoniae is poorly understood. We demonstrate that human pneumococcal capsular polysaccharide-specific IgA initiated dose-dependent killing of S. pneumoniae with complement and phagocytes. The majority of specific IgA in serum was of the polymeric form (pIgA), and the efficiency of pIgA-initiated killing exceeded that of monomeric IgA-initiated killing. In the absence of complement, specific IgA induced minimal bacterial adherence, uptake, and killing. Killing of S. pneumoniae by resting phagocytes with immune IgA required complement, predominantly via the C2-independent alternative pathway, which requires factor B, but not calcium. Both S. pneumoniae-bound IgA and complement were involved, as demonstrated by a 50% decrease in killing with blocking of Fcalpha receptor (CD89) and CR1/CR3 (CD35/CD11b). However, IgA-mediated killing by phagocytes could be reproduced in the absence of opsonic complement by pre-activating phagocytes with the inflammatory products C5a and TNF-alpha. Thus, S. pneumoniae capsule-specific IgA may show distinct roles in effecting clearance of S. pneumoniae in the presence or absence of inflammation. These data suggest mechanisms whereby pIgA may serve to control pneumococcal infections locally and upon the pathogen's entry into the bloodstream.

Pneumococcal vaccination in HIV-1-infected adults in Uganda: humoral response and two vaccine failures.

OBJECTIVES: To assess the feasibility of establishing a pneumococcal vaccine trial among HIV-1-infected adults in Uganda and to characterize their responses to 23-valent pneumococcal polysaccharide vaccine. DESIGN: An open-label pilot trial to assess recruitment and compliance of HIV-1-infected adults in Uganda to vaccination and to determine the immunogenicity of the vaccine. SETTING: A community clinic for HIV-1-infected adults in Entebbe, Uganda. METHODS: Levels of capsule-specific IgG to four common vaccine capsular serotypes were measured before vaccination and 1 month after vaccination. Subsequent rates of disease episodes and deaths, and immunologic responses in two vaccine failures, were followed. RESULTS: One month after-vaccination, both HIV-1-infected (n = 77) and seronegative control subjects (n = 10) demonstrated a significant rise in capsule-specific immunoglobulin G (IgG) for three of four serotypes tested, but levels were significantly lower among HIV-1-infected patients. In 149 patient-years of follow-up, two (2.6%) developed pneumococcal pneumonia, one bacteremic with serotype 1 and one non-bacteremic with serotype 13, a non-vaccine serotype; both patients showed inadequate killing of the organism in vitro. In this same follow-up period, 29 (38%) patients died. CONCLUSION: HIV-1-infected adults in Uganda are at high risk of pneumococcal disease and show a significant but suboptimal response to pneumococcal vaccine. Although reliable recruitment and follow-up of vaccinees is feasible, evaluation of vaccine efficacy may be compromised by limited responses to common vaccine serotypes, an unknown incidence of disease with non-vaccine serotypes, and a high rate of mortality unrelated to Streptococcus pneumoniae infection.

Loss of suppressor loci on chromosomes 11 and 14 may be required for radiation-induced neoplastic transformation of HeLa x skin fibroblast human cell hybrids.

We have previously reported a linkage between radiation-induced damage to a putative tumor suppressor locus on fibroblast chromosome 11 and the re-expression of tumorigenicity in a hybrid cell line (HeLa x human skin fibroblast) used to study neoplastic transformation. Further investigation into the molecular basis of radiation-induced neoplastic transformation of the hybrid cell, CGL1, indicates that loss of fibroblast chromosome 11 appears to be necessary but not sufficient for neoplastic transformation. Previous analysis had suggested, though not clearly demonstrated, a possible role for loss of alleles on fibroblast chromosome 14 in the neoplastic transformation of the hybrid cells. Therefore, the status of chromosome 14 in the gamma-ray-induced, neoplastically transformed (GIM) hybrid cell lines and in nontumorigenic control (CON) hybrid cell lines isolated from irradiated populations has been investigated. Chromosome painting and molecular studies using restriction fragment length polymorphisms and tetranucleotide repeat polymorphism analysis were performed. As an additional control, the status of chromosome 12 was also examined. We report that five of the eight GIM cell lines have lost one complete copy of a fibroblast chromosome 14 while only one of the five CON cell lines has lost a complete copy of a fibroblast chromosome 14. No evidence of large-scale loss of chromosome 12 was detected in the GIM or CON cells. The data further suggest that both copies of fibroblast chromosome 14 contain an active tumor suppressor locus and that radiation-induced loss of either fibroblast chromosome 14 is associated with neoplastic transformation in this system. We now conclude that loss of alleles on both fibroblast chromosome 11 and 14 may be required for the radiation-induced neoplastic transformation of these human hybrid cells.

Nitric oxide production during Vibrio cholerae infection.

Vibrio cholerae induces massive intestinal fluid secretion that continues for the life of the stimulated epithelial cells. Enhanced regional blood flow and peristalsis are required to adapt to this obligatory intestinal secretory challenge. Nitric oxide (NO) is a multifunctional molecule that modulates blood flow and peristalsis and possesses both cytotoxic and antibacterial activity. We demonstrate that, compared with those in asymptomatic control subjects, levels of stable NO metabolites (NO2-/NO3-) are significantly increased in sera from acutely ill Peruvian patients with natural cholera infection as well as from symptomatic volunteers from the United States infected experimentally with V. cholerae. In a rabbit ileal loop model in vivo, cholera toxin (CT) elicited fluid secretion and dose-dependent increases in levels of NO2-/NO3- in the fluid (P < 0.01). In contrast, lipopolysaccharide (LPS) elicited no such effects when applied to the intact mucosa. NO synthase (NOS) catalytic activity also increased in toxin-exposed tissues (P < 0.05), predominantly in epithelial cells. The CT-induced NOS activity was Ca2+ dependent and was not suppressed by dexamethasone. In conclusion, symptomatic V. cholerae infection induces NO production in humans. In the related animal model, CT, but not LPS, stimulated significant production of NO in association with increases in local Ca(2+)-dependent NOS activity in the tissues.

Sustained nontumorigenic phenotype correlates with a largely stable chromosome content during long-term culture of the human keratinocyte line HaCaT.

Altered growth and differentiation and a highly abnormal karyotype are generally believed to be indicators for tumorigenic conversion of human cells. Inactivation of TP53 is supposedly one possible mechanism for accelerated genetic aberrations via reduced control of the genetic integrity. To examine the significance of this functional relationship, we investigated the long-term development of the spontaneously immortalized human skin keratinocyte line HaCaT, carrying UV-specific mutations in both alleles of the TP53 tumor suppressor gene. During > 300 passages, proliferation, clonogenicity, and serum-independent growth potential increased. In addition, HaCaT cells gained anchorage independence and at late passages showed reduced differentiation. Karyotypic analysis up to passage 225 revealed a high frequency of translocations and deletions, with a particular increase during passages 30 and 50. Nevertheless, the HaCaT cells remained nontumorigenic when injected subcutaneously, and noninvasive in surface transplants in nude mice. By comparative genomic hybridization, we confirmed the karyotypically identified phase of increased chromosomal aberrations between passages 30 and 50. However, before and thereafter, the CGH profiles of the individual chromosomes were largely unchanged, demonstrating that those translocations-also maintained in later passages-did not cause a gross chromosomal imbalance. Thus, our data suggest that multiple changes often correlated with a "transformed phenotype," including extensive karyotypic alterations and mutational inactivation of TP53, are well compatible with a nontumorigenic phenotype of the HaCaT cells, and that preserved chromosomal balance may be crucial for this stability during long-term propagation.

Anatomic dissociation between HIV-1 and its endogenous inhibitor in mucosal tissues.

The rarity of oral transmission of human immunodeficiency virus (HIV)-1 by saliva suggests the absence of HIV-1 in the oral cavity and/or the presence of viral inhibitory molecules. We analyzed salivary gland tissues from 55 individuals with acquired immune deficiency syndrome (AIDS) for the presence of HIV-1 by in situ hybridization and detected the virus in more than 30% of these salivary glands. These data, together with previous demonstrations of HIV-1 in oral secretions, implicate a key role for an anti-viral molecule(s) in suppressing transmission. Thus, we focused on the characterization and localization of the endogenous antiviral molecule secretory leukocyte protease inhibitor (SLPI), which inhibits HIV-1 infection in vitro. Expression of SLPI transcripts was evident in submandibular, parotid, and minor salivary glands from both HIV-1-infected and seronegative subjects. Gene expression was reflected by similar levels of SLPI protein by immunohistochemical analysis in the tissues and by enzyme-linked immunosorbent assay in the saliva. However, although SLPI accumulated in acinar cells or ductal epithelium, HIV-1 transcripts did not, and these viral transcripts were identified only in mononuclear cells within the salivary gland stroma. By in situ hybridization, we found no evidence of productive HIV-1 infection of salivary gland epithelium. Thus, HIV-1 was frequently identified in salivary gland tissue, but the virus was found in interstitial mononuclear cells only and did not co-localize with SLPI. Once within the oral cavity, HIV-1 exposure to antiviral levels of SLPI may impede infection of additional target cells, contributing to the virtual absence of oral transmission of HIV-1 by saliva. These studies emphasize the importance of innate, endogenous inhibitors of HIV-1, particularly SLPI, as effective inhibitors of HIV-1 transmission.

Responsiveness of human immunodeficiency virus type 1-infected Kenyan women with or without prior pneumococcal disease to pneumococcal vaccine.

In East Africa, Streptococcus pneumoniae is a common and serious, but potentially preventable, human immunodeficiency virus type 1 (HIV-1)-associated pathogen. For 54 HIV-1-infected women, baseline levels of capsule-specific antibody to 2 of 4 pneumococcal serotypes were lower than levels in 15 seronegative women (P < .05). After immunization, specific antibody to all 4 serotypes increased in HIV-1-infected and -uninfected women (P < .05). Convalescent levels for 2 of 4 serotypes were greater in seronegative women, but the levels were not different between HIV-1-infected women with (n = 21) or without (n = 33) prior invasive pneumococcal disease. The baseline functional activity to kill S. pneumoniae type 14 was lower in HIV-1-infected than -uninfected women but also rose significantly in all groups after immunization. It is concluded that HIV-1 infection in Kenyan women is associated with decreased levels of natural antibody to selected pneumococcal capsular serotypes, but the vaccine is immunogenic in these patients who are at high risk of invasive pneumococcal disease.

Loss of oncogenic ras expression does not correlate with loss of tumorigenicity in human cells.

ras oncogenes are mutated in at variety of human tumors, which suggests that they play an important role in human carcinogenesis. To determine whether continued oncogenic ras expression is necessary to maintain the malignant phenotype, we studied the human fibrosarcoma cell line, HT1080, which contains one mutated and one wild-type N-ras allele. We isolated a variant of this cell line that no longer contained the mutated copy of the N-ras gene. Loss of mutant N-ras resulted in cells that displayed a less transformed phenotype characterized by a flat morphology, decreased growth rate, organized actin stress fibers, and loss of anchorage-independent growth. The transformed phenotype was restored following reintroduction of mutant N-ras. Although loss of the oncogenic N-ras drastically affected in vitro growth parameters, the variant remained tumorigenic in nude mice indicating that mutated N-ras expression is not necessary for maintenance of the tumorigenic phenotype. We confirmed this latter observation in colon carcinoma cell lines that have lost activated K-ras expression via targeted knockout of the mutant K-ras gene.

Distinct roles for pneumolysin's cytotoxic and complement activities in the pathogenesis of pneumococcal pneumonia.

Pneumolysin, the major Streptococcus pneumoniae cytotoxin, contributes to the early pathogenesis of invasive pneumococcal pneumonia by facilitating intrapulmonary bacterial growth and invasion into the blood. Pneumolysin is a multifunctional toxin, with distinct cytolytic ("hemolytic") and complement-activation ("complement") activities that have been mapped to several regions of the molecule. To characterize the specific contributions of pneumolysin's hemolytic and complement properties to the pathogenesis of pneumococcal pneumonia, we compared the in vivo effects of type 2 S. pneumoniae mutant strains, which produce pneumolysins deficient in these activities. The absence of either pneumolysin's hemolytic or complement activities rendered mutant strains less virulent than the wild-type strain during pulmonary infection. Pneumolysin's hemolytic activity correlated with acute lung injury and bacterial growth at 3 and 6 h after endotracheal instillation. In contrast, pneumolysin's complement activity correlated with bacterial growth and bacteremia at 24 h after pulmonary infection. Pneumolysin's complement activity was not associated with the degree of alveolar-capillary injury or recruitment of leukocytes during initial pulmonary infection. However, pneumolysin's complement activity inhibited killing of mutant bacteria in an in vitro complement-dependent neutrophil killing assay. Thus, both pneumolysin's hemolytic and complement activities made specific contributions to the early pathogenesis of pneumococcal pneumonia at different stages of infection and by different mechanisms.

Step-wise progression in human skin carcinogenesis in vitro involves mutational inactivation of p53, rasH oncogene activation and additional chromosome loss.

Two mechanisms relevant for skin carcinogenesis in man are mutational inactivation of p53 and oncogenic activation of c-rasH gene. Previously, we transfected c-rasH oncogene into human skin keratinocytes (HaCaT) with u.v.-typic mutations in both p53 alleles, which produced benign and malignant tumorigenic clones, expressing similar amounts of mutant Ras protein. Here we show that neither the ras integration site nor the karyotypic changes affects the formation of the benign or malignant tumorigenic phenotype. From the original malignant HaCaT-ras clone we took single human chromosomes, carrying the c-rasH oncogene and transferred them by microcell mediated chromosome transfer into genetically different untransfected nontumorigenic HaCaT cells. This novel approach identified the genetic background of the recipient cell as a critical determinant for the resulting tumor phenotype. Exhibiting similar oncogene expression, microcell hybrids from early passage cells remained nontumorigenic or formed benign tumors, while those with more cytogenetic aberrations (later passages) and loss of > 1 copy of chromosome 15 became malignant. Since aberrations in chromosome 15 were also detected in three of five human skin carcinoma lines this study provides evidence that p53 and c-rasH mutations are early events of human skin carcinogenesis, while loss of gene(s) on chromosome 15 is a late event.

Loss of a putative tumor suppressor locus after gamma-ray-induced neoplastic transformation of HeLa x skin fibroblast human cell hybrids.

The nontumorigenic HeLa x skin fibroblast hybrid cell line, CGL1, can be induced to re-express HeLa tumor-associated cell surface antigen, p75-IAP (intestinal alkaline phosphatase), with resulting neoplastic transformation, by exposure to gamma radiation. This has allowed the human hybrid system to be developed into a quantitative in vitro model for radiation-induced neoplastic transformation of human cells. Recently, several gamma-ray-induced IAP-expressing mutants (GIMs) of the nontumorigenic HeLa x skin fibroblast hybrid CGL1 were isolated and all were tumorigenic when injected subcutaneously into nude mice (Mendonca et al., Cancer Res. 51, 4455-4462, 1991). Control cell lines which were negative for p75-IAP (CONs) were also isolated from irradiated populations, and none were found to be tumorigenic. We have now begun to investigate the molecular basis of radiation-induced neoplastic transformation in this system by studying the potential genetic linkage between p75/IAP expression, tumorigenicity and damage to a putative tumor suppressor locus on fibroblast chromosome 11. Previous analysis of rare spontaneous segregants has indicated that this locus is involved in the regulation of tumorigenicity and in the expression of the HeLa tumor-associated cell surface marker intestinal alkaline phosphatase (p75-IAP) in this system. Therefore, analysis by restriction fragment length polymorphism and chromosome painting have been performed for chromosome 11, and for chromosome 13 as a control, for the p75/IAP-positive GIM and p75/IAP-negative CON cell lines. We report that in five of eight of the GIMs large-scale damage to the fibroblast chromosome 11's is evident (four GIMs have lost one complete copy of a fibroblast chromosome 11 and one GIM has both copies of fibroblast chromosome 11 heavily damaged). None of the CONs, however (0/5), have lost a complete copy of either fibroblast chromosome 11. No large-scale damage to the control chromosome 13's was detected in the GIMs or CONs. The data further suggest that both copies of fibroblast chromosome 11 contain an active locus and that radiation-induced loss of either fibroblast chromosome 11 will result in neoplastic transformation in this system. We conclude that it is the loss of a putative tumor suppressor locus on fibroblast chromosome 11 which is responsible at least in part for radiation-induced neoplastic transformation of these human hybrid cells.

Molecular correlation between in vitro and in vivo activity of beta-lactam and beta-lactamase inhibitor combinations against methicillin-resistant Staphylococcus aureus.

Beta-Lactam resistance in Staphylococcus aureus is associated with beta-lactamase production, with the presence of a new penicillin binding protein (PBP) called PBP2a, with reduced affinity for beta-lactam antibiotics, and with modifications of normal PBPs. We have studied these mechanisms of resistance, in vivo and in vitro, for several beta-lactam antibiotics against both beta-lactamase-producing and non-producing methicillin-resistant S. aureus organisms (MRSA). Our results showed that all tested agents inhibited binding of labeled penicillin G to many PBPs. The combination of cefoperazone and sulbactam was the best combination, and it inhibited radiolabeled penicillin G binding to PBP2a at a lower concentration than that needed for cefoperazone alone. In vivo, the regimen of cefoperazone plus sulbactam was also more effective than cefoperazone alone. For beta-lactamase-negative strains this correlated with an increased binding affinity of cefoperazone plus sulbactam to PBP2a and PBP4. The improved efficacy of cefoperazone plus sulbactam versus cefoperazone with a beta-lactamase producing strain was closely related to cefoperazone hydrolysis by beta-lactamase that was inhibited by sulbactam. This study demonstrates that there is more than one effect of beta-lactamase inhibitors when they are combined with beta-lactam antimicrobial agents, and also that there may be a role for these agents in therapy for MRSA infections.