UMLS:C0024523 - FACTA Search

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Query: UMLS:C0024523 (malabsorption)
7,319 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The data generated from the human genome project offers unprecedented opportunities to elucidate the etiology of chronic diseases and developmental anomalies that arise from deleterious genome-diet interactions. Folate metabolism is an attractive system to explore such relationships. Folate is necessary for the synthesis of purine and thymidine deoxyribonucleotides and S-adenosylmethionine, a cofactor required for DNA methylation. Impaired folate metabolism results from primary folate deficiency, alcohol, gastrointestinal disorders that result in malabsorption, single nucleotide polymorphisms, increased folate catabolism and secondary nutrient deficiencies in vitamin B-6, vitamin B-12 and iron arising from a variety of pathologies. Any of these conditions singly or in combination influence DNA synthesis, DNA integrity, allelic-specific gene expression, chromatin structure and DNA mutation rates. Biochemical manifestations of impaired folate metabolism include increased uracil uptake into DNA, altered DNA methylation status and elevated homocysteine and S-adenosylhomocysteine in serum and tissues. These biochemical changes are associated with risk for cancer, cardiovascular disease, neural tube defects and some neuropathies and anemia, although direct causative mechanisms have not been established in all cases. Interactions between folate and the genome are reciprocal; polymorphisms in key genes influence folate nutritional requirements, indicating that dietary folate adequacy likely exerts selective pressure and thereby influences genetic variation. Other studies indicate that exposure to excess folate, perhaps at levels that occur at the upper end of the intake distribution curve, may have unintended consequences in promoting embryo viability. Therefore individualizing folic acid dietary recommendations necessitates a detailed understanding of all genetic and physiological variables that influence the interaction of folate with the genome and their relationship to the disease process.
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PMID:Bringing individuality to public health recommendations. 1216 15

Two sisters developed gastrointestinal malabsorption with pain and unsteady gait due to polyneuropathy at age 15. Both had ophthalmoplegia, neurogenic EMG, and COX-negative muscle fibers. One patient had low muscle complex I-IV activity, multiple mtDNA deletions, and depletion, but no thymidine phosphorylase (TP) or dNT-2 gene mutations. TP activity and brain MRI were normal. The condition resembles mitochondrial neurogastrointestinal encephalomyopathy, except for the absence of leukoencephalopathy, and is likely caused by a nuclear DNA mutation that disrupts intergenomic signaling.
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PMID:Multiple mtDNA deletions with features of MNGIE. 1229 82

Giardia lamblia is medically important as a cause of diarrhea and malabsorption throughout the world and is thought to be one of the earliest-branching eukaryotes on a phylogenetic tree. Nevertheless, the mechanisms of inheritance are largely unknown. The trophozoites of Giardia and other diplomonads are interesting in their possession of two nuclei that are identical or similar in several respects. They replicate at nearly the same time, have similar quantities of DNA, and are both transcriptionally active. We used fluorescence in situ hybridization to demonstrate that genes from each of the five chromosomes are found in both nuclei, confirming that each nucleus has at least one complete copy of the genome. This raises a second question. The alleles of a gene in different nuclei are expected to accumulate different mutations, but surprisingly, the degree of heterozygosity in a clone is very low. One possible mechanism for eliminating sequence differences between nuclei is that each daughter cell receives two copies of the same nucleus at cell division. We used trophozoites with a plasmid transfected into a single nucleus to demonstrate that the two nuclei are partitioned equationally at cytokinesis. The mechanism(s) by which homozygosity is maintained will require further investigation.
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PMID:The two nuclei of Giardia each have complete copies of the genome and are partitioned equationally at cytokinesis. 1245 54

Proliferative enteropathy is an important enteric disease caused by Lawsonia intracellularis. A wide range of host species can be infected by the same bacterium, yet the clinico-pathologic features among these hosts remains almost identical. The disease has been recognized regularly among ratites, but not in other avian families, such as galliforms, even though these suffer uncharacterized enteric conditions. Fresh ileum-colon contents were obtained from 228, 3- to 8-week-old chickens with enteric disease, kept at 14 large commercial farms in the southern USA. DNA was extracted from each sample and subjected to polymerase chain reactions (PCR) with primers specific to eubacterial DNA, L. intracellularis, and Bilophila wadsworthia. All chicken samples were positive for eubacterial DNA, 29 chickens (13%) were positive for B. wadsworthia DNA, and none were positive for L. intracellularis DNA. Given the ubiquitous nature of L. intracellularis, we consider it likely that some avian families do not carry the necessary mechanism for L. intracellularis viability. Bilophila wadsworthia appears to be a consistent member of the colonic flora of some host animals. Neither bacterium appears to be associated with malabsorption syndromes in chickens.
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PMID:Search for Lawsonia intracellularis and Bilophila wadsworthia in malabsorption-diseased chickens. 1288 32

Villous atrophy in an infant immediately suggests food intolerance. We report a case with an unusual cause. This female infant was first examined at 5 months for anorexia and failure to thrive. Intestinal biopsy showed total villous atrophy. A diet excluding gluten and cow milk proteins failed to improve her condition and the infant was hospitalized at 7 months for further investigations. The infant was hypotonic with a head lag. No other clinical sign was noted. Serum transaminases were increased 5- to 10-fold and CSF proteins concentration was increased. Metabolic investigations revealed hyperlactacidaemia and an increased lactate/pyruvate ratio during fasting and feeding, suggesting a mitochondrial cytopathy. Respiratory chain enzymatic activity measurements confirmed the diagnosis and showed severely decreased activities of complexes I, III and IV in both the liver and muscle. Molecular analysis demonstrated depletion of mitochondrial DNA in the liver (75%) and in muscle (97%). The infant was discharged under continuous enteral nutrition. Improvement was of short duration and the infant died at 1 year of age of massive hepatic failure. This is the first report of a mitochondrial DNA depletion with total villous atrophy and malabsorption as early clinical onset. A mitochondrial cytopathy should be considered in such conditions when food exclusion diets fail.
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PMID:[Mitochondrial cytopathy: an unusual infantile cause of total villous atrophy]. 1476 33

In the present work, the authors' previous studies of a "distant action", exerted by an intestinal pathogen (Cryptosporidium parvum) on the liver of experimentally infected baby rats, were extended to include shifts in the quantity of glycogen, protein and nuclear DNA in the host liver at different degrees of infection. One of the outcomes of this work is the discovery of a very quick response of hepatocytes and a high sensitivity of rat liver to parasitic invasion even at a weak intensity of infection. 85-90 h after oocyst feeding to rats, glycogen quantity in their livers was 2.5 times lower that in the control. This suggests that the infected host liver worked under energetic starvation conditions. The proposed coefficients of general infection (I) and infection with intracellular stages (F) made it possible to distinguish between the total abundance of parasites in the host intestine during the whole period of infection, and the number of feeding intracellular stages available by the moment of autopsy. The glycogen amount in rat hepatocytes does not depend on I, and negatively correlates with F. Unlike, the protein content in hepatocytes positively correlates with I, being independent of F. Despite the obvious deficiency of amino acids in the infected rats, as a consequence of cryptosporidiosis-induced malabsorption, the protein synthesis in their hepatocytes was not at all inhibited but, on the contrary, much activated. This is a most characteristic feature of the distant action of C. parvum on the liver of parasitized host. With C. parvum infection, the share of polyploid hepatocytes does not correlate with either I, or F. However, compared to the control, the mean values of relative numbers of polyploid cells in weakly, moderately, and heavily infected animals (according to I values) were higher by 20, 100 and 100%, respectively. In hepatocyte nuclei of C. parvum infected rats, the total area of nucleoli increases almost by 30%. The above changes are discussed in terms of both the liver compensatory response to the existing pathology (diarrhea), and the host-parasite relationships. Studies into the distant action of an intestinal pathogen (C. parvum) on non-intestinal organs (liver) of the infected host may be qualified as a new and original approach to pathogenesis of protozoan infections (coccidioses sensu lato), to which young host specimens are known to be most susceptible.
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PMID:[Cell response of rat liver parenchyma to the infection by the intestinal protozoan pathogen Cryptosporidium parvum (Sporozoa, Coccidia)]. 1517 50

The maturational decline in lactase activity renders most of the world's adult human population intolerant of excessive consumption of milk and other dairy products. In conditions of primary or secondary lactase deficiency, the lactose sugars in milk pass through the gastrointestinal tract undigested or are partially digested by enzymes produced by intestinal bacterial flora to yield short chain fatty acids, hydrogen, carbon dioxide, and methane. The undigested lactose molecules and products of bacterial digestion can result in symptoms of lactose intolerance, diarrhea, gas bloat, flatulence, and abdominal pain. Diagnosis of lactose intolerance is often made on clinical grounds and response to an empiric trail of dietary lactose avoidance. Biochemical methods for assessing lactose malabsorption in the form of the lactose breath hydrogen test and direct lactase enzyme activity performed on small intestinal tissue biopsy samples may also be utilized. In some adults, however, high levels of lactase activity persist into adulthood. This hereditary persistence of lactase is common primarily in people of northern European descent and is attributed to inheritance of an autosomal-dominant mutation that prevents the maturational decline in lactase expression. Recent reports have identified genetic polymorphisms that are closely associated with lactase persistence and nonpersistence phenotypes. The identification of genetic variants associated with lactase persistence or nonpersistence allows for molecular detection of the genetic predisposition towards adult-onset hypolactasia by DNA sequencing or restriction fragment length polymorphism analysis. The role for such genetic detection in clinical practice seems limited to ruling out adult-onset hypolactasia as a cause of intolerance symptoms but remains to be fully defined. Attention should be paid to appropriate interpretation of genetic detection in order to avoid potentially harmful reduction in dairy intake or misdiagnosis of secondary lactase deficiency.
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PMID:Genetic variation and lactose intolerance: detection methods and clinical implications. 1528 17

Fecal occult blood testing is the most widely prescribed screening test for colorectal cancer. Recent development of immunological tests has increased specificity. Fecal DNA analysis opens up a new field for early detection of this widespread neoplasia. Inflammatory bowel disease is another important area where the development of fecal markers provides an interesting alternative to the gold standard but costly and invasive endoscopic investigations with histological analysis of biopsy specimens. Fecal TNFalpha and calprotectin can now be proposed to distinguish organic from non-organic intestinal disease, so select candidates for further investigations, and to assess disease activity. Measurement of fecal elastase provides real progress in screening for exocrine pancreatic insufficiency in patients with malabsorption syndrome. The development of non-invasive fecal markers is thus of increasing interest, providing data about the entire gastrointestinal tract useful for screening and individual patient management.
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PMID:[New fecal markers: recent developments and perspectives]. 1555 Aug 93

Adult-type hypolactasia (lactase non-persistence; primary lactose malabsorption) is characterized by the down-regulation of the lactase enzyme activity in the intestinal wall after weaning. The down-regulation is genetically determined and a mutation has occurred that has made part of mankind tolerate milk (lactase persistence). A DNA-variant, single nucleotide polymorphism C/T-13910 located 13 910 base pairs (bp) upstream of the lactase gene (LCT) at chromosome 2q21-22 has been shown to associate with the lactase persistence/non-persistence trait both in family and case-control studies. The C/T-13910 variant is located in a non-coding region in the genome in intron 13 of the minichromosome maintenance type 6 gene (MCM6). Significant correlation between the C/T-13910-variant and lactase activity in the intestinal biopsy specimens has been demonstrated. Molecular epidemiological studies on the prevalence of the C/C-13910 genotype associated with low lactase activity are in agreement with the prevalence figures for adult type hypolactasia in>70 diverse ethnic groups studied. Recent functional studies have suggested that this variant has an enhancer effect over the lactase gene. Based on the biochemical, functional, genetic and molecular epidemiological studies of the C/T-13910 variant, genetic testing for adult type hypolactasia has been introduced into clinical practice in Finland. Identification of the genetic change has highlighted the role of non-coding variants in the regulation of common genes and created new tools to study the mechanism of lactase enzyme activation.
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PMID:Molecular genetics of adult-type hypolactasia. 1601 16

Chronic diarrheal illness and malabsorption are challenging diagnostic and clinical problems. The identification of the causative pathogens that are involved in gastrointestinal infections is often difficult. It took 85 years after the first description of a case of intestinal lipodystrophy by Georg Whipple in 1907 until the causative bacterium was characterized by using molecular genetics techniques. We here report the complicated clinical course of a young patient with chronic diarrhea accompanied by severe, life-threatening malabsorption with extensive weight loss. Histology and glucose hydrogen breath test were suggestive of a bacterial overgrowth syndrome in the small bowel, but standard culture-based techniques and serology failed to identify the causative bacteria. Thus, bacterial ribosomal DNA (16S ribosomal DNA) was extracted from duodenal biopsy samples and analyzed by community fingerprinting and species-specific polymerase chain reaction. Stenotrophomonas maltophilia was identified as the cause of chronic infectious enteritis. Only specific long-term antibiotic treatment with co-trimoxazole had a durable clinical effect and led to normalization of 16S ribosomal DNA profiles. This case shows the role of rare and uncommon bacteria in refractory and chronic human gastrointestinal infections. Genomic techniques, including 16S-based single-strand conformation polymorphism analysis, will play an increasing role in the diagnosis of chronic infections with facultatively pathogenic bacteria or in the clinical analysis of complex bacterial communities such as the intestinal bacterial microflora. Future enhancements in detection techniques will show that chronic bacterial infections are more frequent as a cause of gastrointestinal malfunction than commonly thought.
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PMID:Life-threatening chronic enteritis due to colonization of the small bowel with Stenotrophomonas maltophilia. 1608 23

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