Gerd Hamscher

Different behavior of tetracyclines and sulfonamides in sandy soils after repeated fertilization with liquid manure

Recently we showed that tetracyclines tend to persist and may accumulate in sandy soils after repeated fertilizations with liquid manure. We continued these field investigations from 2001 to 2003 and observed no further accumulation of tetracyclines in soil, but found that the average tetracycline concentration remained higher than 150 microg/kg soil. From 2000 to 2002, approximately 330 g tetracycline, 7 g chlortetracycline, 28 g sulfamethazine, and 57 g sulfadiazine per hectare were transferred via liquid manure to the topsoil (0-30 cm). Nevertheless, no leaching of tetracyclines into deeper soil segments or groundwater was observed. Furthermore, we developed new analytical methods for the detection of various sulfonamides in liquid manure, soil, and groundwater. Investigation of the same fields used in the tetracycline study showed that sulfamethazine occurred in concentrations approximately two orders of magnitude lower than that of tetracycline in the plow layer. Although there apparently were very low concentrations of sulfamethazine in soil, we detected it in groundwater sampled by suction probes at 1.4 m below soil surface in the spring of 2002. Further investigations confirmed these findings. To our knowledge, this is the first direct evidence of continuous leaching of a veterinary drug from soil into groundwater under field conditions. We conclude that tetracyclines and sulfonamides show distinctly different environmental behaviors. One explanation may be their different sorption coefficients in soil, indicating (in part) their different mobilities in this ecosystem.

Tetracyclines and Tetracycline Resistance in Agricultural Soils: Microcosm and Field Studies

The influence of the use of antibiotics on the prevalence of resistance genes in the environment is still poorly understood. We studied the diversity of tetracycline and sulfonamide resistance genes as influenced by fertilization with pig manure in soil microcosms and at two field locations. Manure contained a high diversity of resistance genes, regardless of whether it stemmed from a farm operation with low or regular use of antibiotics. In the microcosm soils, the influence of fertilization with manure was clearly shown by an increase in the number of resistance genes in the soil after manuring. Spiking of the tetracycline compounds to the microcosms had only little additional impact on the diversity of resistance genes. Overall, the tetracycline resistance genes tet(T), tet(W), and tet(Z) were ubiquitous in soil and pig slurries, whereas tet(Y), tet(S), tet(C), tet(Q), and tet(H) were introduced to the microcosm soil by manuring. The diversity of tetracycline and sulfonamide [sul(1), sul(2), and sul(3)] resistance genes on a Swiss pasture was very high even before slurry amendment, although manure from intensive farming had not been applied in the previous years. The additional effect of manuring was small, with the tetracycline and sulfonamide resistance diversity staying at high levels for the complete growth season. At an agricultural field site in Germany, the diversity of tetracycline and sulfonamide resistance genes was considerably lower, possibly reflecting regional differences in gene diversity. This study shows that there is a considerable pool of resistance genes in soils. Although it is not possible to conclude whether this diversity is caused by the global spread of resistance genes after 50 years of tetracycline use or is due to the natural background in soil resistance genes, it highlights a role that environmental reservoirs might play in resistance gene capture.

Selection of organic process and source indicator substances for the anthropogenically influenced water cycle

An increasing number of organic micropollutants (OMP) is detected in anthropogenically influenced water cycles. Source control and effective natural and technical barriers are essential to maintain a high quality of drinking water resources under these circumstances. Based on the literature and our own research this study proposes a limited number of OMP that can serve as indicator substances for the major sources of OMP, such as wastewater treatment plants, agriculture and surface runoff. Furthermore functional indicators are proposed that allow assessment of the proper function of natural and technical barriers in the aquatic environment, namely conventional municipal wastewater treatment, advanced treatment (ozonation, activated carbon), bank filtration and soil aquifer treatment as well as self-purification in surface water. These indicator substances include the artificial sweetener acesulfame, the anti-inflammatory drug ibuprofen, the anticonvulsant carbamazepine, the corrosion inhibitor benzotriazole and the herbicide mecoprop among others. The chemical indicator substances are intended to support comparisons between watersheds and technical and natural processes independent of specific water cycles and to reduce efforts and costs of chemical analyses without losing essential information.

Localization of Xenin-immunoreactive Cells in the Duodenal Mucosa of Humans and Various Mammals

Xenin is a 25-amino-acid peptide extractable from mammalian tissue. This peptide is biologically active. It stimulates exocrine pancreatic secretion and intestinal motility and inhibits gastric secretion of acid and food intake. Xenin circulates in the human plasma after meals. In this study, the cellular origin of xenin in the gastro-entero-pancreatic system of humans, Rhesus monkeys, and dogs was investigated by immunohistochemistry and immunoelectron microscopy. Sequence-specific antibodies against xenin detected specific endocrine cells in the duodenal and jejunal mucosa of all three species. These xenin-immunoreactive cells were distinct from enterochromaffin, somatostatin, motilin, cholecystokinin, neurotensin, and secretin cells, and comprised 8.8% of the chromogranin A-positive cells in the dog duodenum and 4.6% of the chromogranin A-positive cells in human duodenum. In all three species, co-localization of xenin was found with a subpopulation of gastric inhibitory polypeptide (GIP)-immunoreactive cells. Immunoelectron microscopy in the canine duodenal mucosa demonstrated accumulation of gold particles in round, homogeneous, and osmiophilic secretory granules with a closely adhering membrane of 187 ± 19 nm diameter (mean ± SEM). This cell type was found to be identical to the previously described canine GIP cell. Immunocytochemical expression of the peptide xenin in a subpopulation of chromogranin A-positive cells as well as the localization of xenin immunoreactivity in ultrastructurally characterized secretory granules permitted the identification of a novel endocrine cell type as the cellular source of circulating xenin.

Distribution, formation, and molecular forms of the peptide xenin in various mammals.

In the present investigation we isolated the recently discovered pentacosapeptide xenin from gastric mucosa of man, dog, pig, guinea pig, rat, and rabbit. HPLC, mass spectrometry, and amino acid sequence analysis showed xenin-25 in concentrations of 54-144 pmol/g tissue in gastric mucosa of each species. Extraction with 2% TFA followed by analytical C18 HPLC revealed 0.02-84 pmol/g xenin-25 also in hypothalamus, lung, liver, heart, kidney, adrenal gland, pancreas, testicle, skin, and duodenal, jejunal, ileal, and colonic mucosa of dog and man, respectively. Digestion of these acid extracts with pepsin liberated xenin-25 in concentrations from 2 up to 166 pmol/g tissue. Gel chromatography revealed a large molecular weight precursor of xenin-25 and evidence for an endogenous acid protease coeluting with pepsinogen capable of releasing xenin-25 from its precursor. Maximal concentrations of xenin-25 were obtained when canine gastric mucosa was incubated with 2% TFA at room temperature for 2 h. Longer incubation times led to a decline of xenin-25 concentration and to formation of xenin-16 and xenin-9, both C-terminal fragments of xenin-25. We conclude that xenin-25 is present not only in human gastric mucosa but also in the stomach of various other mammals. Xenin-25 is further present in low concentrations in many other organs where a pepsin-like protease generates xenin-25 from a large precursor and processes it to smaller fragments.

Characterization of a new endogenous vitamin A metabolite

Here, we describe the discovery of a new major endogenous vitamin A metabolite with particularly high hepatic concentrations. This metabolite was isolated from mouse livers and was characterized as 9-cis-4-oxo-13,14-dihydro-retinoic acid (RA) based on mass spectral, ultraviolet, and nuclear magnetic resonance analyses. It was also detected in one human liver. To gain further insight into endogenous retinoid metabolism, mice were fed over a period of 14 days ad libitum with diets enriched with different amounts of retinyl palmitate [15,000, 45,000 or 150,000 international units (IU)/kg diet]. Higher retinyl palmitate amounts in the diet resulted surprisingly in a dose-dependent decrease in all-trans-RA levels in serum, kidney, and brain, whereas levels of 9-cis-4-oxo-13,14-dihydro-RA, retinol, and retinyl esters were dose-dependently elevated in serum, kidney, and liver. 13-cis-RA levels could be detected in serum, liver, and kidney, but were unaffected by the dietary vitamin A status. 9-cis-RA levels were below the detection limit of 0.2 ng/ml serum or 0.4 ng/g tissue. This study indicates that the oxidation at C4 of the cyclohexenyl ring, isomerization of the C9/C10 double bond, and reduction of the C13/C14 double bond are major endogenous metabolic pathways of vitamin A.

Xenin plasma concentrations during modified sham feeding and during meals of different composition demonstrated by radioimmunoassay and chromatography

UNLABELLED Xenin is a 25 amino acid peptide produced by specific endocrine cells of the duodenal mucosa. Xenin has multiple biological actions in the gastrointestinal tract. It modulates intestinal motility, affects exocrine pancreatic secretion, and gastric secretion of acid. In the present investigation, we studied plasma concentration of xenin in volunteers after modified sham feeding and after meals of different composition. Plasma xenin concentrations were determined by radioimmunoassay in unextracted plasmas and after acidic extraction using C-18 Sep-Pak chromatography and after neutral extraction using affinity filtration. Both extraction methods were followed by C 18 r.p. HPLC chromatography. Xenin plasma concentrations in unextracted and in extracted plasma rose significantly after modified sham feeding when the food was brought to the volunteers from another room immediately before sham feeding started. When the volunteers had the opportunity to observe the preparation of the meal, xenin plasma concentrations during fasting were high and no further rise was observed after sham feeding. Isocaloric feeding resulted in elevated xenin concentrations in unextracted plasma and after high-pressure liquid chromatography. The methods of extraction, acidic or neutral, did not affect the results. CONCLUSION Cephalic factors, investigated by modified sham feeding, stimulate release of xenin into the circulation. Xenin may participate in the central nervous regulation of gastrointestinal function.

Phase III of the migrating motor complex: associated with endogenous xenin plasma peaks and induced by exogenous xenin

Xenin, a recently discovered peptide produced by specific endocrine cells of the duodenal mucosa, has shown exocrine, endocrine and motility effects in the gastroenteropancreatic system in animal experiments. The aim of the present investigation was to study the role of xenin in the regulation of duodenojejunal motility of humans. Twenty‐nine healthy volunteers from the hospital staff gave informed consent to participate in this investigation. In 20 volunteers, we determined plasma concentrations of immunoreactive xenin at 15 min intervals over a mean time period of 8 h fasting and recorded the interdigestive motor activity of the duodenojejunum. In a double‐blind randomized crossover study on other nine subjects, synthetic xenin in a dose of 4 pmol kg–1 min–1 or placebo was infused for 10 min intravenously in the interdigestive period and postprandially after a liquid meal. Duodenojejunal motility was recorded simultaneously. Predefined interdigestive xenin plasma peaks were found to be significantly associated with the phases III of the migrating motor complex. In the interdigestive period, xenin induced a premature phase III activity in each volunteer; this was followed by a second phase III in five out of nine subjects. In the postprandial state, xenin significantly increased contraction frequency and the percentage of aborally propagated contractions. These findings suggest a role of the peptide hormone xenin in modulating interdigestive and postprandial duodenojejunal motility in humans.

Identification of proxenin as a precursor of the peptide xenin with sequence homology to yeast and mammalian coat protein α

Proxenin a precursor of the bioactive peptide xenin, was isolated from canine pancreas by HPLC and identified by mass spectrometry and sequence analysis as a pentatriacontapeptide with a molecular weight of 4035: Met Leu-Thr Lys-Phe-Glu-Thr-Lys-Ser-Ala-Arg-Val-Lys-Gly-Leu-Ser- Phe-His-Pro-Lys-Arg-Pro-Trp.Ile-Leu-Thr-Ser-Leu-His-Asn-Gly-Val-Ile-Glo- Leu-OH. Treatment with pepsin cleaved off 10 C-terminal amino acids and released xenin. Data base search showed amino acid sequence homology of xenin and proxenin with the sequence of coal protein alpha of yeast (62%) and humans (100%). Concentration of the coatomer complex from rabbit liver led to an equimolar enrichment of extractable proxenin. We conclude, therefore, that xenin and proxenin are peptide sequences highly conserved during evolution within the alpha-subunit of the coatomer.

Evaluation and subsequent minimization of matrix effects caused by phospholipids in LC-MS analysis of biological samples

BACKGROUND The influence of matrix effects in LC-MS/MS analysis of biological samples can be enormous and has to be evaluated during method development. Phospholipids, which are present in considerable quantities in biological fluids, are supposed to cause matrix effects when co-eluting with analytes. Therefore, the reduction of phospholipids should lead to the minimization of matrix effects. METHODOLOGY & RESULTS: Here, a polymeric reversed-phase (PRP) SPE cartridge was compared with a combination of mixed-mode-anion-exchange (MAX) and mixed-mode-cation-exchange (MCX) SPE cartridges regarding elimination of matrix effects during sample clean-up. For evaluation of matrix effects post-column infusion experiments were performed. Phospholipid amount in the sample extract and matrix effects are enhanced using PRP in contrast to the combination of MAX/MCX. CONCLUSION For an efficient elimination of phospholipids during sample preparation and to improve method accuracy and precision it is advisable to use a combination of MAX/MCX SPE cartridges.