Rearing condition and plasma cortisol in rhesus monkey infants

Nicotine has been shown to affect attentional and mnemonic processes. However, whether these effects are due to changes in perceptual and/or motor aspects of the tasks is not at all clear. This study tested the hypothesis that nicotine from cigarette smoking has differential effects on perceptual and motor processes, as reflected by event-related potentials (ERPs) and reaction times (RTs), respectively, and that perceptual effects may be specific to changes in working memory. ERPs. RTs and performance accuracy were recorded from smokers and nonsmokers during a serial-probe recognition memory task in which lists of words or "memory sets" were followed by a probe word that was either in-set or out-of-set. Smokers were tested in a "smoking" and a 12-h "deprived" condition. Smoking-smokers and deprived-smokers exhibited fast RTs to in-set and out-of-set probes relative to a group of nonsmokers. They exhibited even faster RTs when the inset probe word matched the first or last item in the memory set. Thus, smokers as a group showed enhanced primacy and recency effects suggesting that smoking specifically facilitates processes related to the motor output aspects of working memory. Different effects characterized the electrophysiology. Larger P300s were recorded to in-set compared to out-of-set probes by both subject groups. Smoking smokers exhibited enhanced P300s to both types of probes. When smokers abstained for 12 h (deprived smokers), the differences in P300 amplitude were reduced but not eliminated. Smoking smokers exhibited faster P300 latencies to in-set probes, while deprived smokers showed delayed latencies relative to nonsmokers. Primacy and recency P300 effects characterized nonsmokers and deprived smokers. However, this relationship was reversed in the Smoking condition. These results support the hypotheses that nicotine has distinct effects on memory-related perceptual and motor aspects of working memory. The increase in efficiency of the memory search with nicotine is consistent with the functional role of the cholinergic system in maintaining a state "appropriate for efficient information processing."     

Mitochondrial DNA in beta-cells is a sensitive target for damage by nitric oxide

Increasing evidence indicates that nitric oxide (NO) may play a role in immune-mediated injury to beta-cells. One site for the action of this agent is the mitochondrion. Although the exact targets for damage within this organelle have yet to be fully elucidated, a potential location for injury is mitochondrial DNA (mtDNA). Therefore, experiments were initiated to evaluate damage to mtDNA caused by NO. Both exogenous NO generation (spermine/NO adduct [sper/NO]) and endogenous production of NO (IL-1beta) were studied. To study the effects of exogenously produced NO, neonatal rat islet cells in monolayers were exposed to varying doses of sper/NO for 30 min. Total cellular DNA was isolated and treated with alkali to produce strand breaks at abasic sites resulting from exposure to NO. Damage to mtDNA was evaluated using a quantitative Southern blot technique. The results showed that sper/NO caused dose-dependent damage to mtDNA. Additionally, mtDNA was found to be more sensitive to injury generated by either source than a similarly sized fragment of nuclear DNA. To evaluate the effects of endogenously produced NO, beta-cell cultures were treated with IL-1beta for 18 h. Other cultures were treated with IL-1beta and an inhibitor of the inducible form of nitric oxide synthase, aminoguanidine. DNA was evaluated as described for the sper/NO studies. IL-1beta caused appreciable damage to mtDNA, and this damage was reduced in mtDNA from cultures treated with IL-1beta and aminoguanidine. These studies show that mtDNA is a sensitive target for NO generated both endogenously and exogenously and that this DNA is more vulnerable to NO-induced damage than nuclear DNA.     

Neutrophil chemokines in bronchoalveolar lavage fluid and leukocyte-conditioned medium from nonsmokers and smokers

Polymorphonuclear neutrophils (PMN) have been implicated in the pathogenesis of emphysema. The chemokines interleukin-8(IL-8), growth-related oncogene (GRO-alpha) and extractable nuclear antigen (ENA)-78 may be involved in the increased numbers of PMN in smokers' airspaces. The levels of these cytokines in bronchoalveolar lavage fluid (BALF) and bronchoalveolar lavage leukocyte conditioned medium (LCM), along with BALF PMN numbers in 12 smokers who abstained for 12 h (chronic smoking) or continued to smoke until I h before study (acute smoking) and seven nonsmokers were compared. Neutrophils in BALF increased in acute (1.96+/-0.53%, 0.99+/-0.32x10(6) cells) compared with chronic smokers (0.59+/-0.25%, 0.61+/-0.24x10(6) cells, p<0.05 nonsmokers) and nonsmokers (0.79+/-0.29%, 0.05+/-0.01x 10(6) cells, p<0.05). There were no differences in IL-8 or GRO-alpha in BALF between smokers and nonsmokers. ENA-78 levels were lower in smokers (p=0.006). There was no difference in IL-8, GRO-alpha or ENA-78 in LCM from unstimulated cells in smokers versus nonsmokers. After stimulation with lipopolysaccharide (LPS) 10 ng mL(-1), IL-8 release in acute smokers (p=0.04) and GRO-alpha release in smokers (p=0.009) were significantly higher than in nonsmokers. Following stimulation with LPS 100 ng.mL(-1), GRO-alpha release was higher in smokers (p=0.03) and increased further in acute smokers (p=0.02 versus nonsmokers, p=0.04 versus chronic smokers) and ENA-78 release increased in smokers (p=0.02 versus non-smokers). In conclusion, influx of polymorphonuclear neutrophils into smokers' airspaces is an acute phenomenon and neutrophil chemokine release from mixed bronchoalveolar lavage leukocytes is influenced by cigarette smoking and endotoxins.     

A deletion of mitochondrial DNA in murine doxorubicin-induced cardiotoxicity

A deletion of about 4 kb has been determined in the mutated mitochondrial DNA (mtDNA) in cardiomyocytes with chronic doxorubicin (DOX)-induced cardiotoxicity in mouse. The incidence of the mtDNA deletion increased with the dosage and with the duration of the DOX administration. Coenzyme Q10 administration prevented the mtDNA deletion and decreased the thiobarbituric acid reactive substance content in the heart mitochondria, suggesting some free radical involvement in this mtDNA deletion. This mtDNA deletion may be involved in cardiomyopathy, which is known to be dosage-dependently induced by DOX administration.     

Direct detection of multiple point mutations in mitochondrial DNA

Mitochondrial defects can be caused by mutations in nuclear or mitochondrial DNA. Large deletion/duplication and point mutations are the two major types of mitochondrial DNA (mtDNA) mutations. Comprehensive molecular diagnosis requires the analysis of multiple point mutations. We developed an effective multiplex PCR/allele-specific oligonucleotide (ASO) method to simultaneously screen multiple point mutations in mtDNA. The system involved three pairs of primers to amplify mutation "hot spots" at tRNA(leu(UUR)), tRNA(lys)/ATPase, and ND4 regions, followed by detection of point mutations with ASO probes. Over 2000 specimens were analyzed and the results were compared with those from previous studies with the PCR/restriction fragment length polymorphism method. Our data demonstrate that the multiplex PCR/ASO method is much more sensitive in the detection of low mutant heteroplasmy. It is simple and cost effective, especially if a large number of samples are to be screened for multiple point mutations.     

The transmission disadvantage of yeast mitochondrial intergenic mutants is eliminated in the mgt1 (cce1) background

A trans-acting element, MGT1 (also called CCE1), has previously been shown to be required in Saccharomyces cerevisiae for the preferential transmission of petite mitochondrial DNA (mtDNA) molecules over wild-type mtDNA molecules. In the present study a possible role of this nuclear gene in the transmission of mtDNA from various respiration-competent mutants was studied. Several of these mutants, lacking one or the other of two biologically active mitochondrial intergenic sequences, were employed in genetic crosses. When these deletion mutants were crossed to the parental wild-type strain in the MGT1/CCE1 background, the progeny contained predominantly wild-type mtDNA molecules. When crosses were performed in the mgt1/cce1 background, the parental molecules interacted in zygotes and underwent homologous recombination but wild-type and intergenic-deletion alleles were transmitted with equal frequencies.     

Altered mitochondrial gene expression in a maternal distorted leaf mutant of Arabidopsis induced by chloroplast mutator

Chloroplast mutator (chm) of Arabidopsis is a recessive nuclear mutation that causes green and white variegation in leaves and is inherited in a non-Mendelian fashion. In this study, we have identified and characterized a mutant observed in F1 and backcrossed BC1 populations from a cross between chm1-3 and ecotype Columbia. This mutant, maternal distorted leaf (MDL), grows very poorly and is distinguished by distorted rough leaves and aborted flowering organs. Electron microscopic observation showed that in MDL plants, a significant portion of mitochondria are abnormal and appear to be nonfunctional. DNA gel blot and sequence analysis of the MDL mitochondrial DNA (mtDNA) revealed rearrangements in two mtDNA fragments associated with rps3-rpl16 genes (encoding ribosomal proteins S3 and L16, respectively). One rearrangement resulted in the insertion of the rps3-rpl16 operon downstream of atp9. An independent deletion in this region had eliminated the majority of rps3. In contrast, another rearrangement deleted part of rpl16, whereas rps3 remained intact. RNA gel blot analysis indicated that expression of these genes is also altered as a consequence of the mtDNA rearrangements. Thus, a mutation at the CHM locus affects mitochondrial gene expression, and impaired mitochondrial function may result in the distorted phenotype.     

Histopathologic and molecular alterations in bronchial epithelium in habitual smokers of marijuana, cocaine, and/or tobacco

BACKGROUND: Tobacco smoking has been observed to cause molecular alterations in bronchial epithelium that antedate the development of lung carcinoma. The rising prevalence of marijuana and cocaine use among young adults in the United States prompted us to investigate whether similar molecular and histopathologic alterations occur in habitual smokers of marijuana and/or cocaine who may or may not also smoke tobacco. METHODS: Bronchoscopy was performed in 104 healthy volunteer subjects, including 28 nonsmokers and 76 smokers of one or more of the following substances: marijuana, tobacco, and/or cocaine. Bronchial mucosa biopsy specimens and brushings were analyzed for histopathologic changes, for immunohistopathologic expression of intermediate or surrogate end-point markers that are linked to an increased risk of cancer (Ki-67 [a marker of cell proliferation], epidermal growth factor receptor, p53, Her-2/neu [also known as erbB-2 and ERBB2], globular actin, and abnormal DNA ploidy). Reported P values are two-sided. RESULTS: Smokers of any one substance or of two or more substances exhibited more alterations than nonsmokers in five to nine of the 10 histopathologic parameters investigated (all P < .05), and they exhibited more molecular abnormalities than nonsmokers. Differences between smokers and nonsmokers were statistically significant (all P < or = .01) for Ki-67, epidermal growth factor receptor, globular actin, and DNA ploidy. There was general agreement between the presence of molecular abnormalities and histopathologic alterations; however, when disagreement occurred, the molecular abnormalities (e.g., Ki-67 and epidermal growth factor receptor) were more frequently altered (all P < or = .01). CONCLUSIONS: These findings suggest that smoking marijuana and/or cocaine, like tobacco smoking, exerts field cancerization effects on bronchial epithelium, which may place smokers of these substances at increased risk for the subsequent development of lung cancer.     

Effect of smoking on the long-term course of ulcerative colitis

OBJECTIVE: To evaluate the effects of smoking on the long term clinical course in patients with ulcerative colitis. METHODS: The medical charts of 556 patients with ulcerative colitis were reviewed retrospectively. Patients were classified as smokers (n = 85) or nonsmokers (n = 471) according to their smoking status during the course of the disease. Extent of colonic lesions, complications, medical requirements, and actuarial rate of colectomy were compared in smokers and nonsmokers. RESULTS: Mean follow-up (+/- SD) was longer in smokers than in nonsmokers (116 +/- 107 mo, vs 87 +/- 94 mo.). Less smokers than nonsmokers required oral steroids (52 vs 63%, P = 0.05). No difference between the groups was observed regarding the use of salicylates, the need for intravenous steroids, for immunosuppressive drugs, for colectomy, and the occurrence of complications. The actuarial rate of colectomy was less in smokers than in nonsmokers (32 +/- 12% and 42 +/- 6% at 10 years respectively. P = 0.04). Initial and cumulative extent of the disease process did not differ between the groups. However, in the subgroup of patients with limited disease at onset, development of pancolitis was less frequent in smokers than in nonsmokers (14 and 26%, respectively, P = 0.04). CONCLUSION: The lesser need for oral steroids and the lower actuarial rate of colectomy in smokers suggest that ulcerative colitis in smokers is characterized by a less severe clinical presentation and a better long term prognosis than in nonsmokers.     

Contrasting population structure from nuclear intron sequences and mtDNA of humpback whales

Powerful analyses of population structure require information from multiple genetic loci. To help develop a molecular toolbox for obtaining this information, we have designed universal oligonucleotide primers that span conserved intron-exon junctions in a wide variety of animal phyla. We test the utility of exon-primed, intron-crossing amplifications by analyzing the variability of actin intron sequences from humpback, blue, and bowhead whales and comparing the results with mitochondrial DNA (mtDNA) haplotype data. Humpback actin introns fall into two major clades that exist in different frequencies in different oceanic populations. It is surprising that Hawaii and California populations, which are very distinct in mtDNAs, are similar in actin intron alleles. This discrepancy between mtDNA and nuclear DNA results may be due either to differences in genetic drift in mitochondrial and nuclear genes or to preferential movement of males, which do not transmit mtDNA to offspring, between separate breeding grounds. Opposing mtDNA and nuclear DNA results can help clarify otherwise hidden patterns of structure in natural populations.     

Citation for the Distinguished Physician Award of the Endocrine Society to Dr. John P. Bilezikian

OBJECTIVE: To elucidate the molecular mechanism of smoking cessation and its relationship to body weight gain, the effects of smoking on the serum levels of leptin were studied in Japanese patients with type 2 diabetes. RESEARCH DESIGN AND METHODS: The serum levels of leptin after an overnight fast in 37 adult male Japanese patients with type 2 diabetes (17 smokers and 20 nonsmokers) were assayed using radioimmunoassay. In addition, the serum leptin levels in four nondiabetic smokers were measured before and 2 weeks after quitting smoking. RESULTS: Smokers and nonsmokers did not differ in age, BMI, or levels of blood glucose and fasting insulin but did differ in HDL cholesterol levels (1.07 +/- 0.18 vs. 1.32 +/- 0.24 mmol/l for smokers and nonsmokers, respectively, P = 0.002). The mean serum leptin level of smokers did not differ from that of nonsmokers (3.8 +/- 1.9 vs. 3.8 +/- 1.6 ng/ml). The leptin level correlated with the fasting insulin level and BMI (r = 0.55 and 0.56, P < 0.001 and 0.001, respectively). The leptin levels in four heavy smokers showed no change after the subjects quit smoking (3.3 +/- 1.0 vs. 3.8 +/- 1.8 ng/ml, before and after quitting, respectively). CONCLUSIONS: Because smoking did not affect the leptin levels, the effects of quitting smoking on the fuel metabolism appear to be due to some other factors.     

Replacement risk of amalgam treatment modalities: 15-year results

OBJECTIVES: To develop a protocol capable of identifying deletions in mitochondrial DNA and use it to identify the breakpoints of a mtDNA deletion in a patient with chronic progressive external ophthalmoplegia (CPEO). DESIGN AND METHODS: Deletions in mtDNA were identified by a combination of long range PCR and Southern blotting. The precise breakpoints were determined by automated DNA sequencing. RESULTS: A series of DNA samples from patients with suspected mitochondrial disease was subjected to a protocol, which combines long range PCR and Southern blotting. We found a unique deletion in a patient with CPEO and we identified the precise location of this deletion through DNA sequencing. CONCLUSIONS: Long range PCR has the advantages of speed, minimal samples requirements, and sensitivity. Southern blotting is better able to evaluate heteroplasmy and detect duplications. We suggest a protocol that enables us to identify precisely the breakpoints in a unique mutation of mtDNA in a patient with CPEO.     

Thymidine phosphorylase gene mutations in MNGIE, a human mitochondrial disorder

Mitochondrial neurogastrointestinal encephalomyopathy (MNGIE) is an autosomal recessive human disease associated with multiple deletions of skeletal muscle mitochondrial DNA (mtDNA), which have been ascribed to a defect in communication between the nuclear and mitochondrial genomes. Examination of 12 MNGIE probands revealed homozygous or compound-heterozygous mutations in the gene specifying thymidine phosphorylase (TP), located on chromosome 22q13.32-qter. TP activity in leukocytes from MNGIE patients was less than 5 percent of controls, indicating that loss-of-function mutations in TP cause the disease. The pathogenic mechanism may be related to aberrant thymidine metabolism, leading to impaired replication or maintenance of mtDNA, or both.     

Putative susceptibility markers of coronary artery disease: association between VDR genotype, smoking, and aromatic DNA adduct levels in human right atrial tissue

Cancer and cardiovascular diseases share risk factors such as smoking, and the onset of both diseases have been suggested to have a common mechanistic basis. The binding of carcinogens to DNA (carcinogen-DNA adducts), genetic polymorphisms in carcinogen-detoxifying enzymes glutathione S-transferases (GSTs), and genetic polymorphisms in the vitamin D receptor (VDR) are among the candidates for modifiers of cancer risk. We determined whether these biomarkers could be related to individual characteristics of patients suffering from cardiovascular diseases. For that purpose, DNA from the right atrial appendage of 41 patients who underwent open heart surgery was analyzed for smoking-related DNA adducts and polymorphisms in GSTM1, GSTT1, and VDR genes. Statistical analysis was used to identify any patient's characteristics associated with these molecular markers. Our results showed that heart tissue of cigarette smokers contained a variety of aromatic DNA adducts in significantly elevated levels compared to ex-smokers (P<0.01) or nonsmokers (P<0.001). A linear relationship was observed between DNA adduct levels and daily cigarette smoking (rs=0.73; P=0.0003). Since cardiac myocytes are terminally differentiated cells that have lost their ability to divide and seemingly have limited DNA repair capacities, their levels might accumulate with time and thereby affect heart cell function or viability. Substantial interindividual differences between DNA adduct levels were observed, and persons with severe coronary artery disease (CAD), as assessed by coronary angiography, had higher DNA adduct levels than persons with no or mild CAD (P=0.04). As polymorphisms in GST genes have been shown to modulate DNA adduct levels and risk for lung cancer in smokers, we explored for the first time whether the GST polymorphisms could also explain deviating heart DNA adduct levels and CAD risk. However, no relation could be found between these covariants. In contrast, a VDR genotype, which has been associated with decreased serum levels of the active hormonal form of vitamin D and increased risk for certain cancers, seemed to be related to severity of CAD (P=0.025). Our findings support the hypothesis that smoking-related DNA damage may be involved in the onset of cardiovascular diseases and suggest that VDR genotype may be a useful susceptibility marker of CAD.     

Characterization of the mitochondrial DNA abnormalities in the skeletal muscle of patients with inclusion body myositis

Inclusion body myositis (IBM) is a late-onset inflammatory myopathy with distinctive clinical and histopathological features. The molecular basis for the disease remains unknown, but abnormal nuclear morphology and the accumulation of a protein that binds single-stranded DNA in a sequence-independent fashion suggest a nuclear defect. Evidence of mitochondrial respiratory chain dysfunction (ragged-red fibers, multiple mtDNA deletions) has been reported in IBM muscle. Here we have investigated the relationship of the mtDNA abnormalities in sporadic and familial IBM patients to the pathogenesis of the disease. In situ hybridization analysis with mtDNA probes revealed several different mtDNA abnormalities in cytochrome c oxidase-negative muscle fibers including large-scale mtDNA deletions and mtDNA depletion, but no evidence for nonspecific DNA binding. Contrary to previous reports, we did not observe mtDNA deletions on Southern blot analysis, consistent with the presence of multiple different deleted mtDNA species demonstrated by single fiber PCR. There was no consistent correlation between the mitochondrial abnormalities and markers of muscle regeneration, inflammation, or microscopically detectable pathological alterations of myonuclei in the same fibers. Thus, early molecular abnormalities in IBM may simply accelerate the accumulation of mtDNA abnormalities that occurs with natural aging.     

Hierarchical analysis of genetic structure in native fire ant populations: results from three classes of molecular markers

We describe genetic structure at various scales in native populations of the fire ant Solenopsis invicta using two classes of nuclear markers, allozymes and microsatellites, and markers of the mitochondrial genome. Strong structure was found at the nest level in both the monogyne (single queen) and polygyne (multiple queen) social forms using allozymes. Weak but significant microgeographic structure was detected above the nest level in polygyne populations but not in monogyne populations using both classes of nuclear markers. Pronounced mitochondrial DNA (mtDNA) differentiation was evident also at this level in the polygyne form only. These microgeographic patterns are expected because polygyny in ants is associated with restricted local gene flow due mainly to limited vagility of queens. Weak but significant nuclear differentiation was detected between sympatric social forms, and strong mtDNA differentiation also was found at this level. Thus, queens of each form seem unable to establish themselves in nests of the alternate type, and some degree of assortative mating by form may exist as well. Strong differentiation was found between the two study regions using all three sets of markers. Phylogeographic analyses of the mtDNA suggest that recent limitations on gene flow rather than longstanding barriers to dispersal are responsible for this large-scale structure.     

Association between cigarette smoking and FHIT gene alterations in lung cancer

Epidemiologic data have strongly indicated that cigarette smoking is linked to the development of lung cancer. However, little is known of the molecular targets of carcinogens contained in tobacco smoke. To identify genetic lesions characteristic of tobacco damage, we undertook a molecular analysis of microsatellite alterations within the FHIT gene and FRA3B, as well as at an independent locus on chromosome 10, D10S197, in lung tumors from heavy smokers and in tumors from never smokers. Loss of heterozygosity affecting at least one locus of the FHIT gene was observed in 41 of 51 tumors in the smokers group (80%) but in only 9 of 40 tumors in nonsmokers (22%). The comparison between the frequency of losses in FHIT in smokers and nonsmokers was statistically significant (P = 0.0001), whereas no difference in loss of heterozygosity rate was observed at D10S197 locus. These findings suggest that FHIT is a candidate molecular target of carcinogens contained in tobacco smoke.     

Clonal genetic alterations in the lungs of current and former smokers

BACKGROUND AND PURPOSE: Genetic damage has been identified at multiple chromosomal sites (i.e., loci) in lung cancer cells. We questioned whether similar damage could be detected in the bronchial epithelial cells of chronic smokers who do not have this disease. METHODS: Biopsy specimens from six different bronchial regions were obtained from 54 chronic smokers (40 current smokers and 14 former smokers). The presence of squamous metaplasia and dysplasia (abnormal histologic changes) in the specimens was documented by examination of hematoxylin-eosin-stained sections, and a metaplasia index ([number of biopsy specimens with metaplasia/total number of biopsy specimens] x 100%) was calculated for each subject. Loss of heterozygosity (i.e., loss of DNA sequences from one member of a chromosome pair) involving microsatellite DNA at three specific loci-chromosome 3p14, chromosome 9p21, and chromosome 17p13-was evaluated by means of the polymerase chain reaction. Fisher's exact test and logistic regression analysis were used to assess the data. Reported P values are two-sided. RESULTS: Data on microsatellite DNA status at chromosomes 3p14, 9p21, and 17p13 were available for 54, 50, and 44 subjects, respectively. The numbers of individuals who were actually informative (i.e., able to be evaluated for a loss of heterozygosity) at the three loci were 36 (67%), 37 (74%), and 34 (77%), respectively. DNA losses were detected in 27 (75%), 21 (57%), and six (18%) of the informative subjects at chromosomes 3p14, 9p21, and 17p13, respectively. Fifty-one subjects were informative for at least one of the three loci, and 39 (76%) exhibited a loss of heterozygosity. Forty-two subjects were informative for at least two of the loci, and 13 (31%) exhibited losses at a minimum of two loci. Loss of heterozygosity at chromosome 3p14 was more frequent in current smokers (22 [88%] of 25 informative) than in former smokers (five [45%] of 11 informative) (P = .01) and in subjects with a metaplasia index greater than or equal to 15% (21 [91%] of 23 informative) than in subjects with a metaplasia index of less than 15% (six [46%] of 13 informative) (P = .003). In five informative individuals among nine tested nonsmokers, a loss of heterozygosity was detected in only one subject at chromosome 3p14 (P = .03), and no losses were detected at chromosome 9p21 (P = .05). CONCLUSIONS: Genetic alterations at chromosomal sites containing putative tumor-suppressor genes (i.e., 3p14 and the FHIT gene, 9p21 and the p16 gene [also known as CDKN2], and 17p13 and the p53 gene [also known as TP53]) occur frequently in the histologically normal or minimally altered bronchial epithelium of chronic smokers.