Biochemical genetics of rat esterases: Polymorphism,tissue expression,and linkage of four loci

Two alleles at each of four esterase loci in Rattus norvegicus are described with regard to tissue expression, electrophoretic characterization, and genetic linkage. A previously described dominant gene for prealbumin serum esterase is demonstrated to exist as two codominant alleles in the genetically determined absence of the characteristic albumin esterase. The allelic composition of 16 inbred strains for four esterase genes is provided, and the heretofore ambiguous nomenclature of rat esterase genetics is standardized. Linkage of Es-1, Es-2, and Es-3 is demonstrated. Es-2 and Es-3 are tightly linked in that no recombination has been observed in 55 offspring. The same offspring demonstrated 9% recombination between Es-1 and the other two loci.This work was supported by a grant from the Brown-Hazen Fund of Research Corporation.     

Polymorphism of esterase 11 in Mus musculus,a further esterase locus on chromosome 8

A further esterase, esterase 11, which exhibits a polymorphism detectable by electrophoresis, has been observed in the house mouse, Mus musculus. In 15 inbred strains and two outbred strains, the ES-11A phenotype has been found, composed of two bands of enzyme activity of greater anodal electrophoretic mobility than the two bands of the ES-11B phenotype found in one inbred strain, one wild stock, and 101 wild mice. In F₁ hybrids (IS/Cam×C57 BL/Gr), the phenotype shown corresponds to a mixture of the two parental phenotypes. In backcrosses, ES-11 segregates as an autosomal gene, designated Es-11, closely linked to Es-2 and Es-5 on chromosome 8.This work was supported by the Medical Research Council.     

Linkage of Nat and Es-1 in the mouse and development of strains congenic for N-acetyltransferase

The human polymorphism in the hepatic enzyme N-acetyltransferase (NAT) affects the rate at which individuals acetylate, and in many cases detoxify, aromatic amine and hydrazine drugs and xenobiotics. Differences in NAT activity are known to affect individual susceptibility to drug toxicities and are thought to play a part in some spontaneous disorders. A mouse model for the human acetylation polymorphism has been previously characterized and involves the A/J (slow acetylator) and C57BL/6J (rapid acetylator) inbred strains. Strain distribution analysis of 40 A x B and B x A recombinant inbred (RI) strains indicated linkage between the N-acetyltransferase gene (Nat) and the esterase 1 (Es-1) gene, located on mouse chromosome 8. A double backcross involving 107 animals confirmed the recombination frequency between Nat and Es-1 to be 12 +/- 3% (mean +/- SE). The information obtained in the backcross and RI studies was combined, yielding a 13 +/- 2.8% (mean +/- SD) recombination frequency. The Es-1 genotype was determined in our newly developed congenic strains A.B6-Natr and B6.A-Nats. The B6.A-Nats strain has the Es-1 genotype of its inbred partner, the B6 strain, and the A.B6-Natr strain has the Es-1 genotype of the donor strain. These congenic strains will be important in determining the role of the NAT genotype in susceptibility to arylamine-induced cancer and other disorders.     

Esterase-16 (ES-16) of the rat (Rattus norvegicus): Identification and genetic characterization

Esterase-16, an esterase present in lung and other tissues of the laboratory rat, has been characterized by its biochemical properties (electrophoretic mobility, substrate pattern, sensitivity to inhibitors) and genetic variation in 107 inbred strains and substrains including 14 RI strains. It was classified as a carboxylesterase (EC 3.1.1.1). The phenotype ES-16A (BN/Han and 63 other strains) was defined as a narrow electrophoretic band migrating between ES-1A and ES-13A, ES-16B (LEW/Han and 42 other strains) exhibited the same electrophoretic mobility as ES-16A but was distinguished by its extremely weak activity. Segregation of ES-16 in RI strains and backcrosses indicated linkage to linkage group V (LGV). The Es-16 locus was tentatively placed into esterase cluster 2 and homology with Es-7 of the house mouse is proposed.     

Es-6, a further polymorphic esterase in the rat

A further polymorphic rat esterase with broad tissue expression and restricted substrate specificity is described and tentatively called Es-6. Inbred rat strains have either fixed allele Es-6^F or fixed allele Es-6^S. Es-6 is not linked to the established esterase cluster consisting of the eight esterase loci Es-1, Es-2, Es-3M, Es-4M, Es-4W, Es-5 (=Es-3W), Es-7, and Es-8 in LG V of the rat or to RT1, Gc, c, a, and h. Esterases with apparently identical biochemical and genetical characteristics are Es-17 of the mouse and Es-A4 of humans.Supported by the Deutsche Forschungsgemeinschaft (Be 352/13 and Gu 105).     

Esterase. XXI. Es-9, a possibly new polymorphic esterase in Mus musculus genetically linked to Es-2

A so far undescribed gene controlling zone III esterases has been detected by means of disc gel electrophoresis of kidney homogenates from the two inbred mice strains NMRI and SK/Cam. The gene is tentatively designated Es-9, and the two codominant alleles are designated Es-9a and Es-9b. Es-9 esterases are present in many tissues, but, unlike the other zone III esterase (controlled by Es-5), are not found in the serum. Close linkage with the Es-2 gene leads us to map the Es-9 gene on chromosome 8.     

A new variant of the Es-4 locus in the rat

A new variant of kidney esterase in the DK/Nac rat strain is reported. The new esterase was tentatively named ES-4C determined by a third allele of the Es-4 locus of Linkage Group V (LGV). Strain distribution was surveyed using 17 inbred strains, but no strain except for the DK/Nac strain possessed the ES-4C type. Although we surveyed outbred stocks (Jcl: Wistar and Jcl: SD) we could not find rats carrying the ES-4C type. Genetic analysis of the ES-4C type was carried out using mating experiments between DK/Nac and BUF/Nac (ES-4B). The results indicated that the new variant was controlled by the Es-4 locus and it was named the Es-4c allele.     

Mapping of theEs-4 locus and linear order of esterase genes (linkage group V; LGV) in the rat

There are three different linear orders of esterase loci of linkage group V (LGV) in the rat (Rattus norvegicus). The first is Es-2-Es-3-Es-1, the second Es-3-(Es-2,Es-4)-Es-1, and the third Es-3-Es-2-Es-1-Es-4. We carried out mating experiments to define the order clearly. Linkage analyses of the four esterase loci, Es-1, Es-2, Es-3, and Es-4, were carried out using two inbred strains carrying different alleles at the four loci. Six locus combinations examined in this study were as follows: Es-1-Es-2, Es-1-Es-3, Es-1-Es-4, Es-2-Es-3, Es-2-Es-4, and Es-3-Es-4. The recombination frequencies of each combination were 6.3, 6.3, 6.3, 5.2, 1.8, and 3.4%, respectively. The first recombination between Es-2 and Es-4 was observed. We propose that the esterase loci of LGV be classified into three clusters according to distances between the loci. The linear order of the four loci is shown to be as follows: [Es-3] (cluster II)-3.4 +/- 2.4%-[Es-4-1.8 +/- 1.7%-Es-2] (cluster III)-6.3 +/- 6.1%-[Es-1] (cluster I).     

Biochemical genetics of Es-14 (formerly Es-Si) and a new esterase variation,Es-15, of the laboratory rat (Rattus norvegicus): Biochemistry,tissue expression,and linkage to Es-1 in linkage group V

The segregation of rat esterases controlled by loci residing in linkage group V (LGV) has been studied in two backcross series, (LEW/Han × BN/Han)F₁ × LEW/Han and (LEW/Han × LE/Han)F₁ × LEW/Han. Es-14 (formerly Es-Si) was shown to be closely linked to Es-1. A new esterase locus, Es-15, was described which codes for a liver isozyme. The distribution pattern of three alleles at the Es-15 locus is presented for 52 independent inbred strains. Close linkage of Es-15 to Es-14 and to Es-1 was established, proposing the following gene order: [Es-2, Es-10]—[ES-1, ES-14, ES-15]. The esterase loci on LGV are thus separated into two gene clusters, cluster 1 and cluster 2. These conclusions are supported by the strain distribution patterns of the two RI strain series, LXB and DXE.Otto von Deimling was supported by the Deutsche Forschungsgemeinschaft (De 315/2-1, communication No. 56).     

Re-evaluation of LG V of the rat and assignment of 12 carboxylesterases to two gene clusters

Examining the strain distribution pattern of the recombinant inbred strain series LXB and DXE and of backcross progeny of (LEW X LE)F1 X LEW, (LEW X BN)F1 X LEW, and (LEW X BN)F1 X BN for esterase markers, including three carboxylesterase allozymes (ES-15, ES-16, ES-18), hitherto not studied genetically, revealed the existence of two esterase gene clusters within LG V: cluster 1, containing Es-2, Es-8, Es-10, Es-3, Es-7, Es-9, and separated by 8.8 +/- 1.3 cM from cluster 2, containing Es-1, Es-14 (formerly Es-Si), Es-15, Es-16, and Es-18. Analyses of 93 inbred strains of rats showed only 12 and 6 haplotypes for cluster 1 and cluster 2, respectively, indicating a strong linkage disequilibrium. These data and serotyping results of one backcross population for the RT2 blood group system lead to a re-evaluation of linkage group V. Including literature data the following gene order is suggested: RT2 - (7.1 +/- 1.8) Es-2, Es-4, Es-8, Es-10 (2.7 +/- 0.7) Es-3, Es-7, Es-9 (8.8 +/- 1.3) Es-1, Es-14, Es-15, Es-16, Es-18.     

Serum esterase genetics: Identification and hormone induction of the Es-1b esterase in inbred rats

A previously unrecognized esterase from the sera of the appropriate strains of the rat Rattus norvegicus was revealed by a discontinuous polyacrylamide gel electrophoretic technique. This esterase migrated in the albumin region, whereas a previously known major albumin esterase controlled by the Es-2 locus migrated in the postalbumin region when the method was used. The new albumin esterase component which separated from the Es-2 esterase was identified as the product of the Es-1b gene. The new albumin esterase was not detectable in the sera of sexually mature males of the appropriate genotype, because the activity level of this esterase was influenced by sex hormones, especially androgen.     

Comparative Autosomal Linkage in Mammals: Genetics of Esterases in MUS MUSCULUS and RATTUS NORVEGICUS

Recombination between Esterase-4 and Esterase-2 in the rat was not observed in 278 backcross offspring. Es-4 is thus included within the "esterase cluster" in Linkage group V. A new map of this region was constructed and the relationship of the four esterase loci was found to be: Es-4-(9.6+/-1.6 cM)-Es-2, Es-4-(1.5+/-0.7cM)-Es-3. Homology of this region with a region of Linkage Group XVIII (Chromosome 8) of the mouse was proposed on the basis of tissue distribution, subcellular localization and response of enzymes to inhibiotrs. Specifically, rat Es-1 was suggested as the homolog of mouse Es-6. An autosomal segment comprising at least 15cM of the rat and mouse genomes appears to have remained relatively intact with respect to genetic content during rodent speciation. In addition, a new polymorphism for mouse esterase was described. The locus was designated Esterase-10 (Es-10) and proposed as the mouse homolog of human Esterase D. Linkage of Es-10 with nucleoside phosphorylase-1-(Np-1) on Chromosome 14 was established.     

Esterase 13, a new mouse esterase locus with recessive expression and its genetic location on chromosome 9

A new esterase locus (Es-13) has been identified in Mus musculus. Strains AEJ/GnRk, LG/J, SJL/J, and SWR/J carry a recessive allele, Es-13 ^b, for a locus possibly involved in the posttranslational modification of a kidney esterase. All other strains observed carried the dominant Es-13 ^a allele. Es-13 was mapped on Chr 9 by recombinant inbred lines and by conventional backcrossing experiments. Backcross data produced the following gene order and map distances: Lap-1 (31.6±7.5 cM) Es-13 (2.6±2.6 cM) Mod-1.     

Genetic identification of non-specific esterases of the mouse cauda epididymidis and description of esterase-28, a new carboxylesterase isoenzyme (EC 3.1.1.1)

Twenty-five (25) electrophoretic bands with esterase activity were distinguished in supernatants of cauda epididymidis of DBA/2J mice. Twenty (20) of these were assigned to 10 genetically defined esterases (ES-1, ES-2, ES-3, ES-6, ES-7, ES-11, ES-14, ES-17, ES-19, ES-22) which were already known from investigations of other mouse tissues. Furthermore, ES-10 was identified in cauda supernatants after isoelectric focussing. A hitherto genetically undefined esterase was assigned to locus Es-28 which was expressed solely in the epididymis. Three phenotypes were distinguished: ES-28A was present in the majority of the inbred strains examined. ES-28B was observed in AKR/Han mice and ES-28C was found in SEG/1 mice.     

Esterase-18 (ES-18) of the house mouse (Mus musculus): Biochemical characterization and genetics of an allozyme system linked to chromosome 19

This study describes the biochemical characterization, genetic variation, and linkage of a codominantly inherited murine esterase, termed ES-18. The enzyme was identified by isoelectric focusing of supernatants obtained after centrifugation of tissue homogenates and subsequent staining for esterase using either alpha-naphthyl acetate or 4-methylumbelliferyl elaidate as substrate. ES-18 exhibited an organ-specific variation of the intensity pattern of bands as seen in kidney, spleen, and macrophages, respectively. Its activity was highly sensitive to inhibition by 1 mmol.liter-1 p-chloromercuriphenylsulfonate but was resistant to bis-p-nitrophenyl phosphate. Four allozymes could be distinguished in kidney supernatants obtained from the inbred strains C57BL/10Sn (ES-18A), MOLF/Ei (ES-18B), WLL/BrA (ES-18C), and CAST/Ei (ES-18D). The enzyme is shown to be controlled by a structural locus, Es-18, which resides on chromosome 19. The gene order Ly-1 - Got-1 - 4.7 +/- 1.6 - Es-18 is suggested.     

Esterase-13 of the rat (Rattus norvegicus) and its homology with esterase-3 of the house mouse (Mus musculus)

A new allele of esterase-13 was detected in various laboratory inbred strains of Rattus norvegicus and designated Es-13c. The activity of ES-13 towards a range of chromogenic substrates, inhibitor profile, isoelectric points and retardation coefficients on polyacrylamide gel electrophoresis were determined. The organ specific expression of ES-13 alleles was investigated and it was shown that kidney homogenates contained a factor which modified the liver enzyme banding pattern in vitro. The features of ES-13 from the rat indicated homology between this esterase and ES-3 from the house mouse, Mus musculus domesticus.     

Genetic variation and biochemical properties of esterase-18 (ES-18) in the laboratory rat (Rattus norvegicus): A new locus of esterase cluster 2 in linkage group V

A new liver-specific rat carboxylesterase isozyme (EC 3.1.1.1) designated esterase-18 (ES-18) is described. Genetic variation of ES-18 was examined in 93 inbred strains and substrains and a structural locusEs-18 was suggested, coding for either the presence (Es-18 ^a) or the absence (Es-18 ^b) of the isozyme. Linkage studies involving two backcross series revealed thatEs-18 resides in cluster 2 of LGV. No recombination betweenEs-18 and other cluster 2 loci was found in 19 lines of two RI strain sets or in the backcross series.R. K. was supported by the Sonderforschungsbereich 146 (Versuchstierforschung). O.D. was supported by the Deutsche Forschungsgemeinschaft (De 315/2). This is communication No. 65 of a research program devoted to the cellular distribution, regulation, and genetics of nonspecific esterases.     

Plasma esterase polymorphism in the Bank vole, Clethrionomys glareolus, in Britain

Three hundred and eighty-three Clethrionomys glareolus from 20 localities in England, Wales and Scotland were typed for plasma esterase and a genetic polymorphism was discovered. The esterase was named Es-1. Breeding tests suggested that three alleles were segregating: Es-1^o when homozygous results in complete absence of enzyme activity. The active alleles Es-1^f and Es-1^s code for enzyme variants which migrate more rapidly and less rapidly, respectively, under starch gel electrophoresis. Of these active alleles, Es-1^f is morc common in the north of Britain and Es-1⁸ in the south. A 23-month field study on two areas at Wicken Fen, Cambridgeshire, suggested that animals possessing Es-1^s survived less well at high population densities, perhaps through their being more likely to emigrate.     

Genetic control of urea resistant esterase of liver extracts in chicken

Starch gel electrophoresis according to Okada & Sasaki (1970) revealed six regions of esterase activity designated I to VI. Further genetic variation was found in esterase region III in this study. Two phenotypes, A and O, were observed by means of urea denaturation of chicken liver extracts. These were genetically controlled by an autosomal locus, designated as Es-9 , with a completely dominant ( Es-9 ^A) and a completely recessive ( Es-9 °) alleles.
Es-9 ^A was the most frequent allele in White Plymouth Rock, New Hampshire and Australorp strains and rare in White Leghorn strains.