Relative deficiency of acidic isoforms of osteopontin from stone former urine.

We have tested the relative electrophoretic mobility of osteopontin (OPN) isolated from urine obtained from normal individuals (NU) against similar samples derived from the urine of stone formers (SFU) using high-resolution isoelectric focusing (isoelectric point, pI range 3.5-4.5) in 2D electrophoresis, with Western blot detection. We also report the results from competitive ELISA analyses of these samples. We demonstrated that human urinary OPN has a discrete four band separation pattern that conforms to four previously documented OPN isoforms. The lower two M(r) isoforms migrate to a greater degree toward the acidic end of the gel than do the higher two M(r) isoforms. Densitometry of the signal reveals significant difference in the migration pattern of OPN from SFU as compared to that from NU based on an analysis of the spot intensities grouped in 0.1 pI unit increments. A novel method for the calculation of a weight-averaged pI based on the relative signal strength in an OPN 2D Western blot was developed. The analysis revealed a significantly increased weight-averaged pI values for the higher M(r) forms of OPN in the stone former compared to normal population. Additionally, alkaline phosphatase-treated NU samples resulted in a significant average pI shift of 0.05 units in the alkaline direction, suggesting that a decrease in the average degree of phosphorylation could be responsible for the difference between NU and SFU pI.

Guaifenesin stone matrix proteomics: a protocol for identifying proteins critical to stone formation.

Drug-related kidney stones are a diagnostic problem, since they contain a large matrix (protein) fraction and are frequently incorrectly identified as matrix stones. A urine proteomics study patient produced a guaifenesin stone during her participation, allowing us to both correctly diagnose her disease and identify proteins critical to this drug stone-forming process. The patient provided three random midday urine samples for proteomics studies; one of which contained stone-like sediment with two distinct fractions. These solids were characterized with optical microscopy and Fourier transform infrared spectroscopy. Immunoblotting and quantitative mass spectrometry were used to quantitatively identify the proteins in urine and stone matrix. Infrared spectroscopy showed that the sediment was 60 % protein and 40 % guaifenesin and its metabolite guaiacol. Of the 156 distinct proteins identified in the proteomic studies, 49 were identified in the two stone-components with approximately 50 % of those proteins also found in this patient's urine. Many proteins observed in this drug-related stone have also been reported in proteomic matrix studies of uric acid and calcium containing stones. More importantly, nine proteins were highly enriched and highly abundant in the stone matrix and 8 were reciprocally depleted in urine, suggesting a critical role for these proteins in guaifenesin stone formation. Accurate stone analysis is critical to proper diagnosis and treatment of kidney stones. Many matrix proteins were common to all stone types, but likely not related to disease mechanism. This protocol defined a small set of proteins that were likely critical to guaifenesin stone formation based on their high enrichment and high abundance in stone matrix, and it should be applied to all stone types.

Behavioral, follicular and gonadotropin changes during the estrous cycle in donkeys.

Sexual behavior, follicular development and ovulation, and concentrations of circulating gonadotropins during the estrous cycle were studied during the summer in 7 jennies. Mean behavioral estrous length was 6.4 +/- 0.6 days (mean +/- SEM, n=19; 5.6 +/- 0.5 days preovulatory and 0.8 +/- 0.2 days post-ovulatory). Mean diestrous length was 19.3 +/- 0.6 days (n=14). Females in estrus typically showed posturing, mouth clapping, clitoral winking, urinating and tail raising. Mouth clapping began approximately one day sooner and lasted approximately one day longer than winking and tail raising, so that the total duration of clapping was significantly greater than for the other two signs. Follicular changes and concentrations of gonadotropins were determined for 14 estrous cycles (2 per jenny). The follicular end points [diameter of the largest follicle and number of large (>25 mm), medium (20-24 mm), and small follicles (<20 mm)] showed a significant day effect. The diameter of the largest follicle and the number of large follicles began to increase significantly 7 days prior to ovulation with a maximum value the day before ovulation. Medium follicles reached a maximum number 4 days prior to ovulation, and small follicles decreased significantly prior to ovulation. After ovulation, all follicular end points, except the number of small follicles, remained low for the next 12 days. Mean values of FSH were low during estrus and high during diestrus with 2 significant peaks, one 3 days and one 9 days after ovulation. In contrast, mean levels of LH were low during diestrus and high during estrus with a maximum value the day after ovulation. The LH profile showed a more prolonged gradual increase prior to ovulation, than that which has been reported for ponies and horses.

Response of plasma LH and FSH to gonadotropin-releasing hormone in pony foals and ovariectomized pony mares.

Plasma FSH and LH response to a synthetic GnRH analog was measured in adult ovariectomized pony mares (OVX) and in pony foals (<70 days of age) during late spring (May-June). FSH and LH responded in a similar fashion (200% increase) in the OVX mare, which is different from other reports for intact mares. There was a greater mean response to a comparable dose of GnRH in the prepubertal foal for both FSH (500%) and LH (900%) than in the OVX mare. There was a positive correlation between age and the maximum FSH response to GnRH in male and female foals. The LH response was positively correlated with age in male foals, but not in females. The response to GnRH in the prepubertal foals was consistent with the previously observed patterns of gonadotropin secretion during this age period.

Influence of season and age on reproductive activity in pony mares on the basis of a slaughterhouse survey.

Reproductive tracts were collected monthly over a 3-year period from 1,003 nonpregnant ponies at a slaughtering plant in Wisconsin. Ages of the animals were estimated from tooth replacement and wear. Ovaries were examined for follicular and luteal activity. There were no differences between left and right ovaries in size or occurrence of ovulation. The frequency of multiple ovulations, 10%, was higher than previously reported for ponies. The follicular changes during the ovulatory cycle did not support a two-wave theory of follicular growth. Ovarian activity changed seasonally, a finding similar to that reported previously in palpation studies of the pony. The ovulatory season appeared to be shorter, with fewer ponies ovulating throughout the year, than had previously been reported for horses. There were significant differences between animals of different ages in ovarian endpoints and in the proportion of mares that were ovulatory. The percentage of mares ovulatory during the fall was lower in the younger age groups (less than 5 years) than in the older groups, indicating a shorter breeding season for young mares. Ovarian activity appeared to decrease after 15 years. Examination of luteal structures from pre-pubertal and pubertal fillies indicated that the onset of puberty occurred at 12 to 15 months of age.

Regulation by macromolecules of calcium oxalate crystal aggregation in stone formers.

Based on the structure of kidney stones, it is likely that they form as aggregations of preformed crystals, mostly calcium oxalate monohydrate (COM). In this study, we examined the ability of a macromolecular mixture isolated from the urine of normal individuals and stone formers to inhibit aggregation of preformed COM seed crystals in a simple ionic solution using measurements of changes in the particle size distribution (PSD) of preformed COM crystal aggregates. We also examined the effect in this assay of a number of synthetic homopolymers, naturally occurring urine macromolecules, and binary mixtures thereof. The macromolecular mixtures from urine of normals and most stone formers reduced the degree of aggregation of the seed crystals, whereas 22% of stone former urine macromolecules either did not disaggregate or actually promoted further aggregation. Stone formers within one family shared this property, but a non-stone forming sibling did not. Polyanions, either synthetic or naturally occurring, induced disaggregation to an extent similar to that exhibited by normal urine macromolecules, while polycations had no effect on the PSD. However, mixing a polyanion, either poly-aspartate or osteopontin, with the polycation poly-arginine, changed their behavior from disaggregation to aggregation promotion. The disaggregating behavior of normal urinary macromolecules provides a defense against aggregation, but a minority of stone forming individuals lacks this defense, which may contribute to stone formation.

Formation of hydrated calcium oxalates in the presence of poly-L-aspartic acid.

The effect of poly-L-aspartic acid (PA) on the crystal structure of calcium oxalate crystals grown after spontaneous nucleation was evaluated as a function of relative supersaturation and calcium:oxalate ratio in a buffered salt solution, with pH and ionic strength in the range of normal human urine. PA was used as a model for naturally occurring acidic urine proteins that have been shown to inhibit nucleation and growth of calcium oxalate crystals. The crystals grown were characterized by optical microscopy and X-ray powder diffraction. It was observed that calcium oxalate monohydrate was the preferred crystalline form in the absence of added PA, and it was the only crystalline form obtained at most conditions tested without PA. However, the presence of PA favored the formation of calcium oxalate dihydrate crystals, when present in adequate quantities. The quantity of PA required to affect this change in preferred crystal structure was increased at higher supersaturations and at lower calcium:oxalate ratios, exhibiting a non-linear dependence on both variables. PA was also shown to be a kinetic inhibitor of calcium oxalate dihydrate crystallization. Aspartic acid monomer was found to cause no change in the preferred structure of calcium oxalate monohydrate at mass concentrations well beyond those required with PA to obtain 100% calcium oxalate dihydrate, indicating the critical importance of the polymeric nature of PA for this effect on crystal structure.

Influence of photoperiod on puberty in the female pony.

Thirteen 6-8 month-old fillies were assigned to 3 treatment groups: Group 1 had a 16-h fixed daily photoperiod (16L:8D, N = 4), Group 2 a daily photoperiod equivalent to ambient daylength (control, N = 5), and Group 3 a 9-h fixed daily photoperiod (9L:15D, N = 4). The light treatments extended from 17 December to 9 August. Hair shedding occurred first in Group 1 followed by Group 2, then Group 3. The proportions of fillies with 1 or more ovulations (puberty) by the end of the project were 2/4, 5/5, 2/4 in Groups 1, 2 and 3, respectively. The hypothesis that a fixed daily photoperiod which corresponded to maximum daylength at the summer solstice in temperate zones (16 h) would hasten puberty was not supported. Instead, the 16-h light treatment interfered with the attainment of puberty, as indicated by the reduced proportion of fillies ovulating, reduced numbers of ovulations, luteal bodies, and oestrous periods/filly, the extended intervals from the beginning of the project to the first ovulatory oestrus and the shorter period of oestrus. Hair coat changes were dissociated from changes in reproductive activity in Group 1. Puberty also appeared to be retarded in Group 3, but the results were less pronounced than those for Group 1.

Role of anionic proteins in kidney stone formation: interaction between model anionic polypeptides and calcium oxalate crystals.

PURPOSE: We tested the effect of molecular weight and amino acid composition (aspartate versus glutamate) in model peptides on calcium oxalate dihydrate (COD) formation to understand how known urinary inhibitor proteins might control spontaneous crystallization. MATERIALS AND METHODS: Supersaturated solutions of CaCl2 and Na2C2O4 in HEPES buffered saline solution were prepared at various calcium (Ca) to oxalate (Ox) ratios, but constant supersaturation, in the presence of protein inhibitors (polyaspartic acid molecular weight series or polyglutamic acid). The resulting crystals were collected and evaluated with optical microscopy. RESULTS: With no added inhibitors, the crystal size increased with Ca to Ox ratio, while the number of crystals decreased. With protein inhibitors at equivalent mass concentrations, intermediate molecular weight proteins produced a greater proportion of COD in Ca rich conditions than did either extreme. In Ox rich conditions, the proportion of COD was directly related to protein molecular weight. However, at equivalent molar concentrations, the proportion of COD produced was directly related to molecular weight under all conditions. Larger protein concentrations were required to produce COD at high Ox conditions, in proportion to the increased number of crystals produced. Polyglutamic acid had a much weaker effect on crystal structure, but it changed the COM morphology. CONCLUSIONS: The results suggest that a discrete number of protein molecules per crystal were required to direct crystallization toward COD, and that a characteristic size of polypeptide chain can be defined. The charge of the side group was not the sole determinant of this effect, as polyglutamic and polyaspartic acids behaved differently. Calcium oxalate crystal nucleation rates appeared to increase with Ox content.

Control of calcium oxalate crystal structure and cell adherence by urinary macromolecules.

Crystal polymorphism is exhibited by calcium oxalates in nephrolithiasis, and we have proposed that a shift in the preferred crystalline form of calcium oxalate (CaOx) from monohydrate (COM) to dihydrate (COD) induced by urinary macromolecules reduces crystal attachment to epithelial cell surfaces, thus potentially inhibiting a critical step in the genesis of kidney stones. We have tested the validity of this hypothesis by studying both the binding of monohydrate and dihydrate crystals to renal tubule cells and the effect of macromolecular urinary solutes on crystal structure. Renal tubule cells grown in culture bound 50% more CaOx monohydrate than dihydrate crystals of comparable size. The effects of macromolecules on the spontaneous nucleation of CaOx were examined in HEPES-buffered saline solutions containing Ca2+ and C2O4(2-) at physiologic concentrations and supersaturation. Many naturally occurring macromolecules known to be inhibitors of crystallization, specifically osteopontin, nephrocalcin and urinary prothrombin fragment 1, were found to favor the formation of calcium oxalate dihydrate in this in vitro system, while other polymers did not affect CaOx crystal structure. Thus, the natural defense against nephrolithiasis may include impeding crystal attachment by an effect of macromolecular inhibitors on the preferred CaOx crystal structure that forms in urine.