Chemical and histochemical studies of normal and diseased human gastrointestinal tract. I. A comparison between histologically normal colon, colonic tumours, ulcerative colitis and diverticular disease of the colon

Summary Chemical and histochemical methods were used to compare the epithelial glycoproteins from formalin-fixed surgical specimens of normal human large intestine, colonic tumours, ulcerative colitis and diverticular disease. All the epithelial glycoproteins contained fucose, galactose, glucosamine, galactosamine and, in addition, sialic acids both with and withoutO-acyl substituents in the side chain and/or at position C₄. The glycoproteins of the normal ascending and descending colons differed significantly with respect to the percentage of the sialic acids released following digestion of the de-O-acylated glycoprotein withVibrio cholera neuraminidase and to the molar fucose-sialic acid ratio. Statistical analysis of the chemical data showed that (a) compared to normal, the sialic acids of the tumour and ulcerative colitis glycoproteins from the descending colon were significantly less substituted in the side chain and at position C₄; (b) theO-acetyl substitution pattern of the sialic acids of the ulcerative colitis glycoproteins from the ascending colon and the quantitative composition of the carbohydrate prosthetic groups of the ulcerative colitis glycoproteins from both ascending and descending colons differed from normal; (c) it was not always possible to distinguish between the ulcerative colitis and tumour glycoproteins on the basis of theO-acetyl substitution pattern of their sialic acids; and (d), there were minor differences between normal glycoproteins and those from cases of diverticular disease.     

Phenotypic expression of proteoglycan in mast cells of the human nasal mucosa

Summary The phenotypic expression of the proteoglycan of human mast cells in the nasal mucosa and normal skin was analysed using histochemical techniques. Nasal mucosa was obtained from normal subjects, from patients with seasonal allergic rhinitis before and during the pollen season and from patients with nasal polyps. In the latter groups, specimens were taken from both polyp tissue and adjacent nasal mucosa. Formaldehyde treatment blocked the cationic dye binding in 75–84% of the mast cells located in the nasal mucosa, as compared to the optimum fixation with IFAA (iso-osmotic formaldehyde-acetic acid). A significantly lower degree of blocking of dye binding was obtained in the human skin where 45% of the mast cells were susceptible to formaldehyde treatment (P<0.01). The mast cells of the polyp tissue also showed a relatively low degree of blocking (54%), which was significantly lower than the blocking of mast cells of the nasal mucosa taken from the same individuals (P<0.05). Staining of serial tissue sections in Alcian Blue containing graded concentrations of MgCl₂ was used to determine the critical electrolyte concentration (CEC) of the dye binding, defined as the salt concentration at which the staining of 50% of the mast cells is extinguished. The CEC of the skin mast cells was 0.64m MgCl₂ which is significantly higher than that of the mast cells of the nasal mucosa of normal subjects [0.49m (P<0.05)], allergic subjects [0.52m (P<0.01)], patients with polyp disease [0.52m (P<0.01)] and the polyp tissue proper [0.57m (P<0.05)]. This implies that mast cells of the nasal mucosa contain glycosaminoglycans of a relatively lower charge density and/or molecular size than the connective tissue mast cells found in the human skin. A similar difference has been observed between rat mucosal mast cells, containing a chondroitin suphate proteoglycan, and rat connective tissue mast cells which contain a heparin proteoglycan. However, unlike the rat mucosal cells, the mast cells of the human nasal mucosa showed a weakly fluorescent Berberine binding and, like the rat connective tissue mast cells, entirely lost the ability to bind Toluidine Blue after treatment with nitrous acid. Such treatment results in a deaminative cleavage of heparin and heparan sulphate, but does not degrade chondroitin sulphate. These results provide further evidence of the existence of a distinctive mucosal mast cell phenotype also in man. It is suggested that the lower CEC of the mucosal mast cells is an expression of a content of haparan sulphate, while the relatively higher CEC of the skin mast cells is compatible with a content of heparin.     

Histochemical identification of 9-O-acyl sialic acids: studies of bovine submandibular and rat sublingual gland and human colon

Summary Formalin-fixed tissue specimens containing glycoproteins with side chain O-acylated sialic acids were used to re-examine, compare and evaluate the usefulness of three methods based on the periodic acid-borohydride reduction-saponification-periodic acid-Schiff sequence (PA-Bh-KOH-PAS) for the histochemical identification of 9-O-acyl sialic acids (9-O-AcSA). Method I, modified from Vehet al. (1979), involved a comparison of the staining intensely obtained when both oxidation steps of the PA-Bh-KOH-PAS sequence were carried out with the selective oxidation technique of Volzet al. (1987) with that obtained when the initial oxidation step was carried out with 0.5m periodic acid for 4h at room temperature. Methods II and III, modified from Reidet al. (1978), involved an initial PA-Bh step under oxidation conditions that cleaved all the vicinal diols associated with neutral sugars and side chain unsubstituted and 7-O-acyl sialic acids. The Schiff staining obtained following subsequent re-oxidation with either 0.5m (method II) or 1% periodic acid (method III) for 4h at room temperature (PA-Bh-PAS procedure) identifies 9-O-AcSa.The results of this study indicate that (a) bovine submandibular gland acinar cell glycoproteins contain 9-O-AcSA as well as sialic acids which have ester substituents at C7 or C8, or which are di-(C7C8, C7C9, C8C9) or tri-(C7C8C9) substituted, (b) the side chain O-acyl sialic acids of the glycoproteins of Sprague Dawley rat sublingual gland acinar cells are entirely or almost entirely 9-O-AcSA and (c) it is likely that the majority of the human adult and foetal glycoproteins studied contain small quantities of 9-O-AcSA mixed with sialic acids which are substituted at C7 or C8 or which have two or three side chain O-acyl substituents. However, the interpretation of the results are complicated by observations that indicate that (a) treatment with 0.5m periodic acid either extracts or removes sialic acids from bovine submandibular gland glycoproteins, (b) some human colonic epithelial glycoproteins apparently contain a component other than 9-O-AcSA that oxidises slowly with periodic acid and (c) 1% periodic acid for 2h at room temperature oxidises a small but significant quantity of 9-O-AcSA, thus reducing the intensity of staining in methods II and III. It is concluded that when adequately controlled, methods I, II and III are capable of detecting 9-O-AcSA in glycoproteins containing large quantities of the sialic acid. However, these methods may not detect small quantities of 9-O-AcSA in the presence of large quantities of sialic acids which have O-acyl substitutents at positions C7 or C8 or which have two (C7C8, C7C9, C8C9) or three (C7C8C9) side chain O-acyl substituents. Thus, caution should be used when interpreting data that indicates the absence of 9-O-AcSA.     

The roles of enteric bacterial sialidase,sialateO-acetyl esterase and glycosulfatase in the degradation of human colonic mucin

Sialidase activity in normal faecal extracts showed a preference for mucin-related glycoprotein and oligosaccharide substrates, but the presence of two or moreO-acetyl esters at positions C₇–C₉ on the sialic acids retarded the rate of hydrolysis. A specific sialateO-acetyl esterase was detected with a lower total activity relative to sialidase with mucin substrates and having a pH optimum of 7.8 and aK _M of approximately 1mm sialateO-acetyl ester. A specific glycosulfatase activity was found in faecal extracts using the substrate lactit-[³H]ol 6-O-sulfate with a pH optimum of pH 5.0 and aK _M of approximately 1mm.Faecal extracts from ulcerative colitis (UC) patients had higher sialateO-acetyl esterase and glycosulfatase activity, while mucin sialidase activity was unchanged.Metabolically labelled mucin isolated from UC patients contained less sulfate and had lower sialic acidO-acetylation compared with normal mucin. Colonic mucin was degraded more efficiently by faecal extracts from UC patients compared with normal extracts. The UC mucin was degraded more rapidly than the normal mucin by faecal enzyme extracts from both normal and UC subjects. Abbreviations: UC, ulcerative colitis; BSM, bovine submandibular gland mucin; PMSF, phenylmethylsulfonyl-fluoride. Sialic acids are abbreviated according to Schauer [37].     

Characterization of the Erythrocyte Sodium-Lithium Countertransporter: Limitations and Assumptions of Traditional and Kinetic Methodologies

The present work examined the key elements featuring in the various methods used to characterize the erythrocyte sodium-lithium countertransport. Effects of medium composition on lithium efflux were investigated in 20 subjects. Mean lithium efflux (mmol Li/l RBC.h) into a 150 mm sodium medium was significantly higher than efflux into a revised sodium-rich medium (149 mm) containing 1 mm Mg (0.335 ± 0.100 vs. 0.298 ± 0.085 respectively; P < 0.03). Mean lithium efflux into sodium-free media where sodium had been entirely replaced by magnesium, was significantly lower than efflux into a choline-based medium containing only 1 mm magnesium (0.088 ± 0.027 vs. 0.109 ± 0.034 respectively; P= 0.03). Sodium-lithium countertransport activity and the transporter's kinetic profile were measured simultaneously in 35 subjects using traditional choline-based and kinetic methodologies. There was a significant correlation between countertransport activity and maximal rate of turnover (V _max) (r= 0.62; P < 0.001); V _max values were consistently greater than their corresponding countertransport activities (P < 0.001). On subdividing the subject group into tertiles based on the Michaelis-Menten constant (k _m ) values (mm), <75, 75 − 150 and >150, the slopes of the regression lines for each group diminished progressively (0.64, 0.49 and 0.23 respectively), correlations within each group remained significant (P < 0.001, P < 0.001 and P < 0.02). No significant correlation was found between k _m values and countertransport activity (r= 0.035; P=ns). Increasing the number of points representing sodium concentrations within the range 0–150 mm, improved the confidence in the emerging estimates of V _max and k _m obtained by linear transformation. Comparison of kinetic data derived using four different analytical methods (two linear transformations, a nonlinear regression and a statistical method), showed no significant differences between the estimates yielded for either V _max (P= 0.88, ns) or k _m (P= 0.92, ns). This study has highlighted the critical roles of assay conditions and derivation techniques used when measuring sodium-lithium countertransport, emphasizing the need for standardization of the methodology. Received: 10 December 1996/Revised: 2 October 1997     

Chemical and histochemical studies of normal and diseased human gastrointestinal tract. V. A differential diagnostic method for the histochemical classification of glycoproteins

Summary A differential diagnostic scheme is described for the division of colonic epithelial glycoproteins into eleven histochemically distinct classes. The scheme depends upon the use of seven histochemical techniques which, collectively, permit the differential staining ofO-sulphate ester, sialic acid and its side chainO-acyl variants and vicinal diols located on carbohydrate residues other than sialic acids. Elements of the scheme also provide a general approach to the classification of epithelial glycoproteins in anatomic sites other than the colon.Application of the scheme permitted the classification of the epithelial glycoproteins in the mucosa 0.5–5.0 cm from human colonic tumours and provided direct confirmation of previous observations that changes from normal in the relative proportions of either side chainO-acylated sialic acids or sialic acids andO-sulphate esters can occur independently of one another.     

Identification of 9-O-acetyl-N-acetylneuraminic acid in normal canine pre-ocular tear film secreted mucins and its depletion in Keratoconjunctivitis sicca

O-Acetylated sialic acids have been reported in many sialoglycoproteins where they mediate a variety of immune and other biological events. We have previously demonstrated that the protective mucus barrier on the surface of the canine eye contains sialoglycoproteins. We have also investigated the occurrence of O-Acetylated sialic acids in these ocular mucins. Mucus aspirated from the surface of normal dog eyes and those with keratoconjunctivitis sicca (KCS) was fractionated into three pools by density gradient centrifugation. Sialic acids comprised 0.6–0.9% of the dry weight of the mucins isolated. The sialic acid profile in these pools was examined using HPLC. O-Acetylated sialic acids, mainly Neu5,9Ac₂, were detected in normal animals and made up 10–30% of the total sialic acids detected. A doubling of the sialic acid content was found in KCS mucins, but the level of 9-O-Acetylated sialic acid was reduced below 4% of total. Histological analysis of conjunctival tissue from normal and KCS dogs showed the presence of sialic acids, detected with the α(2–6) sialic acid-specific lectin Sambucus nigra, in the goblet cells and corresponding to the staining pattern for MUC5AC, the major ocular-secreted mucin gene product. In KCS animals a disruption of the normal pattern of conjunctival goblet cells was seen with preservation of the pattern of lectin binding observed in normal animals. Thus the data demonstrate the presence of mono-O-Acetylated sialic acids in normal canine ocular mucins and a loss of this population of sialic acids in dry eye disease in spite of a significant increase in total sialic acids in KCS mucin.     

Chemical and histochemical studies of normal and diseased gastrointestinal tract. IV. A comparison of histochemical and chemical methods for the estimation of side chain O-acylated sialic acids

Summary Statistically significant correlations were obtained between a chemical assay for the proportion of colonic epithelial glycoprotein sialic acids with side chainO-acyl substituents and two histochemical methods, the PBT-KOH-PAS sequence (r _s=0.7485 forN=31,P=0.01, one-sided test) and the PAPT-KOH-Bh-PAS procedure (r _s=0.7024 forN=34). A positive correlation (r _s=0.8654 forN=30,P=0.01) was also obtained between the results of the two histochemical procedures. It is concluded that, on average, histochemical observations are a reliable semiquantitative comparative method for the estimation of side chainO-acetylated sialic acids.     

A new histochemical method for the selective periodate oxidation of total tissue sialic acids

Summary Evaluation of the intensity of the periodic acid—Schiff (PAS) staining produced following oxidation for 1 h at 4°C with 0.4mm periodic acid in approximately 1m hydrochloric acid indicated that this reagent completely oxidized all available sialic acid residues of either the sialo- or sialosulphoglycoproteins of human and rat colon or the sialoglycoproteins of rat sublingual gland. These conditions produced no visible Schiff staining of either neutral macromolecules orvicinal diols located on hexose, 6-deoxyhexose orN-acetylhexosamine residues (neutral sugars) of sialo- and sialosulphoglycoproteins. Furthermore, there was no extraction of epithelial glycoproteins or de-O-acylation of side chain substituted sialic acid residues. These data demonstrate that 0.4mm periodic acid in approximately 1m hydrochloric acid can be used as a specific reagent for the selective visualization of sialic acids in the PAS procedure.Studies of the mechanism of the oxidation of neutral sugars with 0.4mm periodic acid in approximately 1m hydrochloric acid indicated that their lack of PAS reactivity was not due to the production of Schiff unreactive hemiacetals or hemialdals. It is suggested that the selectivity of 0.4mm periodic acid in approximately 1m hydrochloric acid is a result of an increase in the rate of the oxidation of the sialic acid residues together with a decrease in the rate of oxidation of neutral sugars.     

Kinetics of K-Cl Cotransport in Frog Erythrocyte Membrane: Effect of External Sodium

In frog red blood cells, K-Cl cotransport (i.e., the difference between ouabain-resistant K fluxes in Cl and NO₃) has been shown to mediate a large fraction of the total K⁺ transport. In the present study, Cl⁻-dependent and Cl⁻-independent K⁺ fluxes via frog erythrocyte membranes were investigated as a function of external and internal K⁺ ([K⁺] _e and [K⁺] _i ) concentration. The dependence of ouabain-resistant Cl⁻-dependent K⁺ (⁸⁶Rb) influx on [K⁺] _e over the range 0–20 mm fitted the Michaelis-Menten equation, with an apparent affinity (K _m ) of 8.2 ± 1.3 mm and maximal velocity (V _max ) of 10.4 ± 1.6 mmol/l cells/hr under isotonic conditions. Hypotonic stimulation of the Cl⁻-dependent K⁺ influx increased both K _m (12.8 ± 1.7 mm, P < 0.05) and V _max (20.2 ± 2.9 mmol/l/hr, P < 0.001). Raising [K⁺] _e above 20 mm in isotonic media significantly reduced the Cl⁻-dependent K⁺ influx due to a reciprocal decrease of the external Na⁺ ([Na⁺] _e ) concentration below 50 mm. Replacing [Na⁺] _e by NMDG⁺ markedly decreased V _max (3.2 ± 0.7 mmol/l/hr, P < 0.001) and increased K _m (15.7 ± 2.1 mm, P < 0.03) of Cl⁻-dependent K⁺ influx. Moreover, NMDG⁺ Cl substitution for NaCl in isotonic and hypotonic media containing 10 mm RbCl significantly reduced both Rb⁺ uptake and K⁺ loss from red cells. Cell swelling did not affect the Na⁺-dependent changes in Rb⁺ uptake and K⁺ loss. In a nominally K⁺(Rb⁺)-free medium, net K⁺ loss was reduced after lowering [Na⁺] _e below 50 mm. These results indicate that over 50 mm [Na⁺] _e is required for complete activation of the K-Cl cotransporter. In nystatin-pretreated cells with various intracellular K⁺, Cl⁻-dependent K⁺ loss in K⁺-free media was a linear function of [K⁺] _i , with a rate constant of 0.11 ± 0.01 and 0.18 ± 0.008 hr⁻¹ (P < 0.001) in isotonic and hypotonic media, respectively. Thus K-Cl cotransport in frog erythrocytes exhibits a strong asymmetry with respect to transported K⁺ ions. The residual, ouabain-resistant K⁺ fluxes in NO₃ were only 5–10% of the total and were well fitted to linear regressions. The rate constants for the residual influxes were not different from those for K⁺ effluxes in isotonic (∼0.014 hr⁻¹) and hypotonic (∼0.022 hr⁻¹) media, but cell swelling resulted in a significant increase in the rate constants. Received: 19 November 1998/Revised: 23 August 1999     

Utilization of amino acids by bacteria from the pig small intestine

This study determined the utilization of amino acids (AA) by bacteria from the lumen of the pig small intestine. Digesta samples from different segments of the small intestine were inoculated into media containing 10 mmol/L each of select AA (l-lysine, l-threonine, l-arginine, l-glutamate, l-histidine, l-leucine, l-isoleucine, l-valine, l-proline, l-methionine, l-phenylalanine or l-tryptophan) and incubated for 24 h. The previous 24-h culture served as an inoculum for a subsequent 24-h subculture during each of 30 subcultures. Results of the in vitro cultivation experiment indicated that the 24-h disappearance rates for lysine, arginine, threonine, glutamate, leucine, isoleucine, valine or histidine were 50–90% in the duodenum, jejunum or ileum groups. After 30 subcultures, the 24-h disappearance rates for lysine, threonine, arginine or glutamate remained greater than 50%. The denaturing gradient gel electrophoresis analysis showed that Streptococcus sp., Mitsuokella sp., and Megasphaera elsdenii-like bacteria were predominant in subcultures for utilizing lysine, threonine, arginine and glutamate. In contrast, Klebsiella sp. was not a major user of arginine or glutamate. Furthermore, analysis of AA composition and the incorporation of AA into polypeptides indicated that protein synthesis was a major pathway for AA metabolism in all the bacteria studied. The current work identified the possible predominant bacterial species responsible for AA metabolism in the pig small intestine. The findings provide a new framework for future studies to characterize the metabolic fate of AA in intestinal microbes and define their nutritional significance for both animals and humans.     

Large-conductance Calcium-activated Potassium Channels of Cultured Rat Melanotrophs

A large conductance, Ca²⁺-activated K⁺ channel of the BK type was examined in cultured pituitary melanotrophs obtained from adult male rats. In cell-attached recordings the slope conductance for the BK channel was ≈190 pS and the probability (P _o ) of finding the channel in the open state at the resting membrane potential was low (<<0.1). Channels in inside-out patches and in symmetrical 150 mm K⁺ had a conductance of ≈260 pS. The lower conductance in the cell-attached recordings is provisionally attributed to an intracellular K⁺ concentration of ≈113 mm. The permeability sequence, relative to K⁺, was K⁺ > Rb⁺ (0.87) > NH⁺ ₄ (0.17) > Cs⁺≥ Na⁺ (≤0.02). The slope conductance for Rb⁺ was much less than for K⁺. Neither Na⁺ nor Cs⁺ carried measurable currents and 150 mm internal Cs⁺ caused a flickery block of the channel. Internal tetraethylammonium ions (TEA⁺) produced a fast block for which the dissociation constant at 0 mV (K _D (0 mV)) was 50 mm. The K _D (0 mV) for external TEA⁺ was much lower, 0.25 mm, and the blocking reaction was slower as evidenced by flickery open channel currents. With both internal and external TEA⁺ the blocking reaction was bimolecular and weakly voltage dependent. External charybdotoxin (40 nm) caused a large and reversible decrease of P _o . The P _o was increased by depolarization and/or by increasing the concentration of internal Ca²⁺. In 0.1 μm Ca²⁺ the half-maximal P _o occurred at ≈100 mV; increasing Ca²⁺ to 1 μm shifted the voltage for the half-maximal P _o to −75 mV. The Ca²⁺ dependence of the gating was approximated by a fourth power relationship suggesting the presence of four Ca²⁺ binding sites on the BK channel. Received: 23 October/Revised: 15 December 1995     

The Essential Role of Cytosolic Cl− in Ca2+ Regulation of an Amiloride-Sensitive Channel in Fetal Rat Pneumocyte

An amiloride-sensitive, Ca²⁺-activated nonselective cation (NSC) channel in the apical membrane of fetal rat alveolar epithelium plays an important role in stimulation of Na⁺ transport by a beta adrenergic agonist (beta agonist). We studied whether Ca²⁺ has an essential role in the stimulation of the NSC channel by beta agonists. In cell-attached patches formed on the epithelium, terbutaline, a beta agonist, increased the open probability (P _o ) of the NSC channel to 0.62 ± 0.07 from 0.03 ± 0.01 (mean ±se; n= 8) 30 min after application of terbutaline in a solution containing 1 mm Ca²⁺. The P _o of the terbutaline-stimulated NSC channel was diminished in the absence of extracellular Ca²⁺ to 0.26 ± 0.05 (n= 8). The cytosolic Ca²⁺ concentration ([Ca²⁺] _c ) in the presence and absence of extracellular Ca²⁺ was, respectively, 100 ± 6 and 20 ± 2 nm (n= 7) 30 min after application of terbutaline. The cytosolic Cl⁻ concentration ([Cl⁻] _c ) in the presence and absence of extracellular Ca²⁺ was, respectively, 20 ± 1 and 40 ± 2 mm (n= 7) 30 min after application of terbutaline. The diminution of [Ca²⁺] _c from 100 to 20 nm itself had no significant effects on the P _o if the [Cl⁻] _c was reduced to 20 mm; the P _o was 0.58 ± 0.10 at 100 nm [Ca²⁺] _c and 0.55 ± 0.09 at 20 nm [Ca²⁺] _c (n= 8) with 20 mm [Cl⁻] _c in inside-out patches. On the other hand, the P _o (0.28 ± 0.10) at 20 nm [Ca²⁺] _c with 40 mm [Cl⁻] _c was significantly lower than that (0.58 ± 0.10; P < 0.01; n= 8) at 100 nm [Ca²⁺] _c with 20 mm [Cl⁻] _c , suggesting that reduction of [Cl⁻] _c is an important factor stimulating the NSC channel. These observations indicate that the extracellular Ca²⁺ plays an important role in the stimulatory action of beta agonist on the NSC channel via reduction of [Cl⁻] _c . Received: 11 August 2000/Revised: 4 December 2000     

Estimating fermentative amino acid catabolism in the small intestine of growing pigs

Fermentative catabolism (FAAC) of dietary and endogenous amino acids (AA) in the small intestine contributes to loss of AA available for protein synthesis and body maintenance functions in pigs. A continuous isotope infusion study was performed to determine whole body urea flux, urea recycling and FAAC in the small intestine of ileal-cannulated growing pigs fed a control diet (CON, 18.6% CP; n=6), a high fibre diet with 12% added pectin (HF, 17.7% CP; n=4) or a low-protein diet (LP, 13.4% CP; n=6). ¹⁵N-ammonium chloride and ¹³C-urea were infused intragastrically and intravenously, respectively, for 4 days. Recovery of ammonia at the distal ileum was increased by feeding additional fibre when compared with the CON (P<0.05) but was not affected by dietary protein (0.24, 0.39 and 0.14 mmol nitrogen/kg BW/day for CON, HF and LP, respectively; P<0.05). Lowering protein intake reduced urea flux (25.3, 25.7 and 10.3 mmol nitrogen/kg BW/day; P<0.01), urinary urea excretion (14.4, 15.0 and 6.2 mmol N/kg BW/day; P<0.001) and urea recycling (12.1, 11.3 and 3.23 mmol nitrogen/kg BW/day; P<0.01) compared with CON. There was a rapid reduction in ¹⁵N-ammonia enrichment in digesta along the small intestine suggesting rapid absorption of ammonia before the distal ileum and lack of uniformity of enrichment in the digesta ammonia pool. A two-pool model was developed to determine possible value ranges for nitrogen flux in the small intestine assuming rapid absorption of ammonia. Maximum estimated FAAC based on this model was significantly lower when dietary protein content was decreased (32.9, 33.4 and 17.4 mmol nitrogen/kg BW/day; P<0.001). There was no impact of dietary fibre on estimates of small intestine nitrogen flux (P>0.05) compared with CON. The two-pool model developed in the present study allows for estimation of FAAC but still has limitations. Quantifying FAAC in the small intestine of pigs, as well as other non-ruminants and humans, offers a number of challenges but warrants further investigation.     

Modulation of the Calmodulin-induced Inhibition of Sarcoplasmic Reticulum Calcium Release Channel (Ryanodine Receptor) by Sulfhydryl Oxidation in Single Channel Current Recordings and [3H]Ryanodine Binding

The modulation of the calmodulin-induced inhibition of the calcium release channel (ryanodine receptor) by two sulfhydryl oxidizing compounds, 4-(chloromercuri)phenyl–sulfonic acid (4-CMPS) and 4,4′-dithiodipyridine (4,4′-DTDP) was determined by single channel current recordings with the purified and reconstituted calcium release channel from rabbit skeletal muscle sarcoplasmic reticulum (HSR) and [³H]ryanodine binding to HSR vesicles. 0.1 μm CaM reduced the open probability (P _o ) of the calcium release channel at maximally activating calcium concentrations (50–100 μm) from 0.502 ± 0.02 to 0.137 ± 0.022 (n= 28), with no effect on unitary conductance. 4-CMPS (10–40 μm) and 4,4′-DTDP (0.1–0.3 mm) induced a concentration dependent increase in P _o (> 0.9) and caused the appearance of longer open states. CaM shifted the activation of the calcium release channel by 4-CMPS or 4,4′-DTDP to higher concentrations in single channel recordings and [³H]ryanodine binding. 40 μm 4-CMPS induced a near maximal (P _o > 0.9) and 0.3 mm 4,4′-DTDP a submaximal (P _o = 0.74) channel opening in the presence of CaM, which was reversed by the specific sulfhydryl reducing agent DTT. Neither 4-CMPS nor 4,4′-DTDP affected Ca-[¹²⁵I]calmodulin binding to HSR. 1 mm MgCl₂ reduced P _o from 0.53 to 0.075 and 20–40 μm 4-CMPS induced a near maximal channel activation (P _o > 0.9). These results demonstrate that the inhibitory effect of CaM or magnesium in a physiological concentration is diminished or abolished at high concentrations of 4-CMPS or 4,4′-DTDP through oxidation of activating sulfhydryls on cysteine residues of the calcium release channel. Received: 22 July 1999/Revised: 15 November 1999     

Single-channel measurements of an <Emphasis Type="Italic">N</Emphasis>-acetylneuraminic acid-inducible outer membrane channel in <Emphasis Type="Italic">Escherichia coli</Emphasis>

NanC is an Escherichia coli outer membrane protein involved in sialic acid (Neu5Ac, i.e., N-acetylneuraminic acid) uptake. Expression of the NanC gene is induced and controlled by Neu5Ac. The transport mechanism of Neu5Ac is not known. The structure of NanC was recently solved (PDB code: 2WJQ) and includes a unique arrangement of positively charged (basic) side chains consistent with a role in acidic sugar transport. However, initial functional measurements of NanC failed to find its role in the transport of sialic acids, perhaps because of the ionic conditions used in the experiments. We show here that the ionic conditions generally preferred for measuring the function of outer-membrane porins are not appropriate for NanC. Single channels of NanC at pH 7.0 have: (1) conductance 100 pS to 800 pS in 100 mM KCl to 3 M KCl), (2) anion over cation selectivity (V _reversal = +16 mV in 250 mM KCl || 1 M KCl), and (3) two forms of voltage-dependent gating (channel closures above ±200 mV). Single-channel conductance decreases by 50% when HEPES concentration is increased from 100 μM to 100 mM in 250 mM KCl at pH 7.4, consistent with the two HEPES binding sites observed in the crystal structure. Studying alternative buffers, we find that phosphate interferes with the channel conductance. Single-channel conductance decreases by 19% when phosphate concentration is increased from 0 mM to 5 mM in 250 mM KCl at pH 8.0. Surprisingly, TRIS in the baths reacts with Ag|AgCl electrodes, producing artifacts even when the electrodes are on the far side of agar–KCl bridges. A suitable baseline solution for NanC is 250 mM KCl adjusted to pH 7.0 without buffer.     

Different arachidonate and palmitate binding capacities of the human red cell membrane

Human red cell membrane bindings of arachidonate and palmitate at pH 7.3 are investigated at temperatures between 0 and 38°C by equilibrating ghosts with the long-chain fatty acids bound to bovine serum albumin in molar ratios (v) within the physiological range (<1.7). Linearized relations of ghost uptakes and fatty acid monomer concentrations in buffer provide estimates of the binding capacities and corresponding equilibrium dissociation constants (K _dm ). The temperature-independent arachidonate binding capacity, 5.5 ± 0.5 nmol g^–1 packed ghosts, is approximately fivefold smaller than that of palmitate, 26.6 ± 2.0 nmol g^–1. While K _dm of arachidonate binding 5.1 ± 0.5 nm is temperature independent, K _dm of palmitate increases with temperature from 3.7 nm at 0°C to 12.7 nm at 38°C.The large difference in binding capacities suggests the presence of at least two different fatty acid binding domains in human red cell membranes.     

Redistribution of hepatocyte chloride during l-alanine uptake

We used ion-sensitive, double-barrel microelectrodes to measure changes in hepatocyte transmembrane potential (V _m), intracellular K⁺, Cl^-, and Na⁺ activities (a ⁱ _k, a _Cl ⁱ and a _Na ⁱ ), and water volume during l-alanine uptake. Mouse liver slices were superfused with control and experimental Krebs physiological salt solutions. The experimental solution contained 20 m l-alanine, and the control solution was adjusted to the same osmolality (305 mOsm) with added sucrose. Hepatocytes also were loaded with 50 mm tetramethylammonium ion (TMA⁺) for 10 min. Changes in cell water volume during l-alanine uptake were determined by changes in intracellular, steady-state TMA⁺ activity measured with the K⁺ electrode. Hepatocyte control V _m was -33±1 mV. l-alanine uptake first depolarized V _m by 2±0.2 mV and then hyperpolarized V _m by 5 mV to-38±1 mV (n = 16) over 6 to 13 min. During this hyperpolarization, a _Na ⁱ increased by 30% from 19±2 to 25±3 mm (P < 0.01), and a _K ⁱ did not change significantly from 83±3 mm. However, with added ouabain (1 mm) l-alanine caused only a 2-mV increase in V _m, but now a _K ⁱ decreased from 61±3 to 54±5 mm (P < 0.05). Hyperpolarization of V _m by l-alanine uptake also resulted in a 38% decrease of a _Cl ⁱ from 20±2 to 12±3 mm (P < 0.001). Changes in V _m and V _Cl — V _m voltage traces were parallel during the time of l-alanine hyperpolarization, which is consistent with passive distribution of intracellular Cl^– with the V _m in hepatocytes. Added Ba²⁺ abolished the l-alanineinduced hyperpolarization, and a _Cl ⁱ remained unchanged. Hepatocyte water volume during l-alanine uptake increased by 12±3%. This swelling did not account for any changes in ion activities following l-alanine uptake. We conclude that hepatocyte a _K ⁱ is regulated by increased Na⁺-K⁺ pump activity during l-alanine uptake in spite of cell swelling and increased V _m due to increased K⁺ conductance. The hyperpolarization of V _m during l-alanine uptake provides electromotive force to decrease a _Cl ⁱ . The latter may contribute to hepatocyte volume regulation during organic solute transport.This work was supported by grant AA-08867 from the Alcohol, Drug Abuse, and Mental Health Association.     

Nonselective Cation and BK Channels in Apical Membrane of Outer Sulcus Epithelial Cells

The outer sulcus epithelium was recently shown to absorb cations from the lumen of the gerbil cochlea. Patch clamp recordings of excised apical membrane were made to investigate ion channels that participate in this reabsorptive flux. Three types of channel were observed: (i) a nonselective cation (NSC) channel, (ii) a BK (large conductance, maxi K or K _Ca ) channel and (iii) a small K⁺ channel which could not be fully characterized. The NSC channel found in excised insideout patch recordings displayed a linear current-voltage (I-V) relationship (27 pS) and was equally conductive for Na⁺ and K⁺, but not permeable to Cl⁻ or N-methyl-d-glucamine. Channel activity required the presence of Ca²⁺ at the cytosolic face, but was detected at Ca²⁺ concentrations as low as 10⁻⁷ m (open probability (P _o ) = 0.11 ± 0.03, n= 8). Gadolinium decreased P _o of the NSC channel from both the external and cytosolic side (IC₅₀∼ 0.6 μm). NSC currents were decreased by amiloride (10 μm− 1 mm) and flufenamic acid (0.1 mm). The BK channel was also frequently (38%) observed in excised patches. In symmetrical 150 mm KCl conditions, the I-V relationship was linear with a conductance of 268 pS. The Goldman-Hodgkin-Katz equation for current carried solely by K⁺ could be fitted to the I-V relationship in asymmetrical K⁺ and Na⁺ solutions. The channel was impermeable to Cl⁻ and N-methyl-d-glucamine. P _o of the BK channel increased with depolarization of the membrane potential and with increasing cytosolic Ca²⁺. TEA (20 mm), charybdotoxin (100 nm) and Ba²⁺ (1 mm) but not amiloride (1 mm) reduced P _o from the extracellular side. In contrast, external flufenamic acid (100 μm) increased P _o and this effect was inhibited by charybdotoxin (100 nm). Flufenamic acid inhibited the inward short-circuit current measured by the vibrating probe and caused a transient outward current. We conclude that the NSC channel is Ca²⁺ activated, voltage-insensitive and involved in both constitutive K⁺ and Na⁺ reabsorption from endolymph while the BK channel might participate in the K⁺ pathway under stimulated conditions that produce an elevated intracellular Ca²⁺ or depolarized membrane potential. Received: 14 October 1999/Revised: 10 December 1999     

The effect of thiols onSaccharomyces fragilis

Treatment of cell suspensions ofSaccharomyces fragilis with 0.01m β-mercaptoethanol or dithiothreitol released a variety of substances of high and low molecular weight. Twenty-two high-molecular-weight glycoproteins were separated by a combination of chromatography on DEAE cellulose and polyacrylamide gel electrophoresis in presence of sodium dodecylsulphate. The carbohydrate components consisted of at least 95% mannose and the protein components had threonine and serine as the major amino acids. Only very small amounts of phosphorus were associated with the high-molecular-weight components. The low-molecular-weight substances were probably released from the internal cell pool and uracil and hypoxanthine were identified as components of this fraction. It is suggested that in addition to breaking disulphide bridges in the cell wall the thiols may also render the plasmalemma permeable to certain low-molecular-weight substances. Such effects are not lethal since the yeast can be trained to grow in presence of 0.01m mercaptoethanol.