Robert C. Karn

SALIVARY ANDROGEN-BINDING PROTEIN (ABP) MEDIATES SEXUAL ISOLATION IN MUS MUSCULUS

We wanted to determine whether the microevolution of the mouse salivary androgen‐binding protein (ABP) Alpha subunit gene (Abpa) could mediate sexual selection and thereby have a potential role in maintaining gene pool integrity where radiating mouse subspecies make secondary contact. This hypothesis is based upon previous work in this laboratory, which has shown that each subspecies apparently has its own allele and that these alleles have a 25‐fold excess of nonsynonymous/synonymous base substitutions compared to an average protein under purifying selection. We provide direct evidence for ABP‐assortative mate selection in a laboratory setting: Mus musculus domesticus and M. m. musculus female mice recognize and discriminate between the territories of male mice that essentially differ solely in their Abpa genotype and, when the males are present, the female prefers to mate with the one of her own ABP type. The observation that females could differentiate between the territories of the two males when those mice were absent suggests that the males marked their territories with ABP. In this study, we also detected ABP on the pelts of male mice and in their environment. It is likely that the animals apply the protein to their pelts by licking and that it is then deposited in their surroundings. We suggest that females of the two subspecies are able to discriminate between males of those subspecies on the basis of this protein molecule. Mouse salivary ABP might present a worthwhile system with which to study a prezygotic isolation mechanism in a mammal.

Reinforcement selection acting on the European house mouse hybrid zone

Behavioural isolation may lead to complete speciation when partial postzygotic isolation acts in the presence of divergent‐specific mate‐recognition systems. These conditions exist where Mus musculus musculus and M. m. domesticus come into contact and hybridize. We studied two mate‐recognition signal systems, based on urinary and salivary proteins, across a Central European portion of the mouse hybrid zone. Introgression of the genomic regions responsible for these signals: the major urinary proteins (MUPs) and androgen binding proteins (ABPs), respectively, was compared to introgression at loci assumed to be nearly neutral and those under selection against hybridization. The preference of individuals taken from across the zone regarding these signals was measured in Y mazes, and we develop a model for the analysis of the transition of such traits under reinforcement selection. The strongest assortative preferences were found in males for urine and females for ABP. Clinal analyses confirm nearly neutral introgression of an Abp locus and two loci closely linked to the Abp gene cluster, whereas two markers flanking the Mup gene region reveal unexpected introgression. Geographic change in the preference traits matches our reinforcement selection model significantly better than standard cline models. Our study confirms that behavioural barriers are important components of reproductive isolation between the house mouse subspecies.

Proteomics and Comparative Genomic Investigations Reveal Heterogeneity in Evolutionary Rate of Male Reproductive Proteins in Mice (Mus domesticus)

Male reproductive fitness is strongly affected by seminal fluid. In addition to interacting with the female environment, seminal fluid mediates important physiological characteristics of sperm, including capacitation and motility. In mammals, the male reproductive tract shows a striking degree of compartmentalization, with at least six distinct tissue types contributing material that is combined with sperm in an ejaculate. Although studies of whole ejaculates have been undertaken in some species, we lack a comprehensive picture of the specific proteins produced by different accessory tissues. Here, we perform proteomic investigations of six regions of the male reproductive tract in mice -- seminal vesicles, anterior prostate, dorsolateral prostate, ventral prostate, bulbourethral gland, and bulbourethral diverticulum. We identify 766 proteins that could be mapped to 506 unique genes and compare them with a high-quality human seminal fluid data set. We find that Gene Ontology functions of seminal proteins are largely conserved between mice and humans. By placing these data in an evolutionary framework, we show that seminal vesicle proteins have experienced a significantly higher rate of nonsynonymous substitution compared with the genome, which could be the result of adaptive evolution. In contrast, proteins from the other five tissues showed significantly lower nonsynonymous substitution, revealing a previously unappreciated level of evolutionary constraint acting on the majority of male reproductive proteins.

Hyperamylasemia in Diabetic Ketoacidosis: Sources and Significance

The origins and clinical significance of hyperamylasemia during diabetic ketoacidosis are unclear. We have therefore correlated important clinical and laboratory indices of diabetic ketoacidosis with sequential determinations of serum and urine amylase concentrations, amylase/creatinine clearance ratios, and specific amylase isozyme types. Hyperamylasemia occurred in 79% of our patients with diabetic ketoacidosis, often after admission to the hospital. Among these patients, 48% had pancreatic-type, 36% salivary-type, and 16% mixed-type (pancreatic and salivary) hyperamylasemia. There were no correlations between the presence, degree, or isozyme type of hyperamylasemia and most laboratory or clinical characteristics, including gastrointestinal symptoms. Patients with pancreatic-type hyperamylasemia tended to have higher amylase/creatinine clearance ratios, but it was not possible to unequivocably diagnose acute pancreatitis during diabetic ketoacidosis with current routine clinical or laboratory procedures.

FEMALE PREFERENCE FOR MALE SALIVA: IMPLICATIONS FOR SEXUAL ISOLATION OF MUS MUSCULUS SUBSPECIES

Abstract We studied the effects of a single genetic change on a complex mammalian behavior using animals congenic for two variants of Abpa, the gene for the alpha subunit of mouse salivary androgen‐binding protein (ABP), in two‐way preference tests. Females exhibited a preference for investigating salivas of males of their own genetic type of ABP but not for urines of either type of male. This preference behavior is consistent for samples of mice from geographically diverse populations of Mus musculus domesticus and M. m. musculus. These findings provide an explanation for the observation that this gene is evolving under strong selection.

Adaptive Evolution in Rodent Seminal Vesicle Secretion Proteins

Proteins involved in reproductive fitness have evolved unusually rapidly across diverse groups of organisms. These reproductive proteins show unusually high rates of amino acid substitutions, suggesting that the proteins have been subject to positive selection. We sought to identify seminal fluid proteins experiencing adaptive evolution because such proteins are often involved in sperm competition, host immunity to pathogens, and manipulation of female reproductive physiology and behavior. We performed an evolutionary screen of the mouse prostate transcriptome for genes with elevated evolutionary rates between mouse and rat. We observed that secreted rodent prostate proteins evolve approximately twice as fast as nonsecreted proteins, remarkably similar to findings in the primate prostate and in the Drosophila male accessory gland. Our screen led us to identify and characterize a group of seminal vesicle secretion (Svs) proteins and to show that the gene Svs7 is evolving very rapidly, with many amino acid sites under positive selection. Another gene in this group, Svs5, showed evidence of branch-specific selection in the rat. We also found that Svs7 is under selection in primates and, by using three-dimensional models, demonstrated that the same regions have been under selection in both groups. Svs7 has been identified as mouse caltrin, a protein involved in sperm capacitation, the process responsible for the timing of changes in sperm activity and behavior, following ejaculation. We propose that the most likely explanation of the adaptive evolution of Svs7 that we have observed in rodents and primates stems from an important function in sperm competition.

Evidence for post-transcriptional modification of human salivary amylase (Amy1) isozymes

Human parotid salivary amylase (Amy1) isozymes may be separated into two families: (1) one of higher molecular weight and slower electrophoretic mobility, odds, and (2) the other of lower molecular weight and faster electrophoretic mobility, evens. An enzyme has been detected in whole saliva, and also partially purified from human oral bacterial flora, which converts the isoamylases from odds to evens. No similar modifying activity was detected in parotid saliva or submandibular and sublingual salivas. A model is presented which explains the multiple isozymes of salivary amylase by post-transcriptional modification of a single gene product.

Hyperammonemia after transurethral resection of the prostate: a report of 2 cases.

We report on 2 patients who became deeply comatose after transurethral resection of the prostate. Both patients were severely hyponatremic and hyperammonemic but the course of the comas followed serum ammonia concentrations more closely than serum sodium concentrations. The genitourinary irrigant used in both procedures was a 1.5 per cent glycine solution. Serum amino acid analyses in 1 patient suggested that the postoperative hyperammonemia was due to catabolism of glycine absorbed during surgery. The inadequate activation of normal pathways of ammonia metabolism in this patient may have been caused by a partial deficiency of the urea cycle enzyme argininosuccinate synthetase. We believe that hyperammonemia should be considered as a cause of encephalopathy after transurethral resection of the prostate. The 1.5 per cent glycine genitourinary irrigating solution may not be as nontoxic as generally believed.

The mouse salivary androgen-binding protein (ABP) alpha subunit closely resembles chain 1 of the cat allergen Fel dI.

Androgen-binding protein (ABP) is found in the salivas of a wide variety of rodents and it has been proposed that ABP functions in sex and/or subspecies recognition (Karn and Dlouhy,J. Hered. 82, 453, 1991). This is a report of significant identity between the alpha subunit of mouse salivary ABP and Chain 1 of cat allergen Fel dI (50% identity), as well as with two other proteins that share identity with Chain 1 of Fel dI, rabbit uteroglobin (27% identity with ABP alpha) and human lung Clara 10 (27% identity with ABP alpha). The secondary structure predicted for the mouse ABP alpha subunit is a very good fit with the secondary structure determined by X-ray crystallography for rabbit uteroglobin, a protein that shares with mouse ABP the capability of binding steroid. Fel dI is found in cat saliva, sebaceous glands, and pelt. Its function is not known but it has been proposed to be involved in protecting dry epithelia, a parallel to uteroglobin protecting wet epithelia. Since mice, like cats, lick themselves and each other extensively, coating their pelts with ABP may be part of this or another biological function.

Immunological relationships and post-translational modifications of human salivary amylase (Amy1) and pancreatic amylase (Amy2) isozymes

Electrophoretic phenotypes of human salivary amylase (Amy1) and pancreatic amylase (Amy2) consist of complex isozyme patterns which may result from post-translational modifications of the primary products of the amylase loci. Biochemical separation of the two molecular weight families of salivary amylase and development of a new electrophoretic system have allowed the identification of complete isozyme patterns corresponding to variant alleles in Amy1 and Amy2 heterozygotes. Further, immunological studies show no nonidentities among salivary isozymes and among pancreatic isozymes, which is to be expected if each series is derived from a single gene product. Both results support the hypothesis that the primary products of the amylase loci undergo post-translational modifications. Salivary and pancreatic amylase appear to be immunologically identical.