Genetic expression of aryl hydrocarbon hydroxylase induction. VI. Control of other aromatic hydrocarbon-inducible mono-oxygenase activities at or near the same genetic locus

When mice are administered aromatic hydrocarbons, the induction of aryl hydrocarbon (benzo[a]pyrene) hydroxylase, p-nitroanisole O-demethylase, 7-ethoxycoumarin O-deethylase, and 3-methyl-4-methylaminoazobenzene N-demethylase activities—all membrane-bound mono-oxygenases having cytochrome P₄₅₀ associated with their active sites—is associated with the same genetic locus or with closely linked loci; we have previously proposed that this genetic region be designated the Ah locus for aromatic hydrocarbon responsiveness. Expression of these four inducible enzyme activities occurs as a single autosomal dominant trait in offspring from a genetic cross between inbred C57BL/6N and DBA/2N mice and from the appropriate backcrosses and intercross. There are no striking differences in relative thermolability or ontogenetic expression among these four closely linked aromatic hydrocarbon-induced mono-oxygenase activities. All four of these microsomal enzyme activities exist in two forms—one predominantly present in control or aromatic hydrocarbon-treated genetically nonresponsive mice and the other predominantly present in aromatic hydrocarbon-treated genetically responsive mice; the latter form is preferentially inhibited in vitro by such compounds as α-naphthoflavone. Whether a single induction-specific protein or a group of induction-specific proteins is associated with the Ah locus remains uncertain. The expression of aminopyrine N-demethylase, d-benzphetamine N-demethylase, NADPH-cytochrome c reductase, and NADPH-cytochrome P₄₅₀ reductase activities in aromatic hydrocarbon-treated genetically responsive and nonresponsive mice is not correlated with the Ah locus.     

Genetic Linkage between the AH Locus and a Major Gene That Inhibits Susceptibility to Audiogenic Seizures in Mice

Mice of the DBA/2 (D2) strain are highly susceptible to sound-induced seizures at 21 days of age; whereas, mice of the C57BL/6 (B6) strain are resistant to these seizures. Although the difference in susceptibility to audiogenic seizures (ASs) between these two strains is inherited as a multiple-factor trait, an association was observed between susceptibility to ASs and the Ah locus. The Ah locus controls the inducibility of aryl hydrocarbon hydroxylase (AHH) activity by a number of aromatic hydrocarbons. B6 mice carry the Ah^b allele and have inducible AHH activity; whereas, D2 mice carry the Ah^d allele and have noninducible activity. Inducibility is inherited as a Mendelian dominant trait in crosses between these strains. Mice carrying the Ah^b allele are generally less susceptible to ASs at 21 days of age than are mice carrying the Ah^d allele. The combined results from B6 x D2 recombinant inbred strains, congenic strains (where the Ah^b allele was placed into the D2 genome and the Ah^d allele placed into the B6 genome), the B6D2F₁ x D2 backcross generation, and a random survey of various inbred strains, suggest that the association between these two traits is due to genetic linkage, rather than to pleiotrophy or to chance. A major gene that inhibits susceptibility to ASs appears to be closely linked to the Ah locus. This gene has been designated Ias, for inhibition of ASs. A large portion of the genetic variability of AS susceptibility may be due to the segregation of Ias.     

DNA,chromatin and chromosomes: By E. M. Bradbury,N. Maclean and H. R. Matthews. New York: Halsted Press (a division of John Wiley and Sons). (1981). 281 pp. $24.95

The Ah locus regulates the induction of cytochrome P₁-450 by foreign chemicals such as 3-methyl-cholanthrene and 2,3,7,8-tetrachlorodibenzo-p-dioxin. The induction process is controlled by the cytosolic Ah receptor. The cytosolic and nuclear Ah receptors were studied in the liver from inbred C57BL/6N (Ah^b/Ah^b) mice, inbred DBA/2N (Ah^d/Ah^d) mice and heterozygotes (Ah^b/Ah^d) and homozygotes (Ah^d/Ah^d) derived from the (C57BL/6N × DBA/2N)F1 × DBA/2N backcross. After [³H-1,6]-2,3,7,8-tetrachlorodibenzo-p-dioxin (³H-TCDD) is given in vivo, the receptor in Ah^b/Ah^b and Ah^b/Ah^d mice is detectable in the cytoplasm and nucleus; in Ah^d/Ah^d mice the receptor is not measurable in the cytosol, but is found in the nucleus at levels one fourth to one fifth of those in Ah^b/Ah^b mice. P₁-450 (23S) mRNA content was estimated by Northern hybridization and by Rot analysis with a mouse P₁-450 cloned cDNA. An excellent dose-response relationship (r = 0.99) was found between the amount of ³H-TCDD-Ah receptor complex appearing in the nucleus and the quantity of P₁-450 mRNA induced in mice with all three possible Ah genotypes.     

Genetically mediated induction of drug-metabolizing enzymes associated with congenital defects in the mouse.

Various polycyclic aromatic compounds induce certain monooxygenase activities, including aryl hydrocarbon (benzo[a]pyrene) hydroxylase (EC 1.14.14.2), and cytochrome P1-450 in the liver and many nonhepatic tissues of the mouse. This induction process is controlled by the Ah locus. Genetic differences that have been shown in the past to be associated with the Ah locus include an increased susceptibility to chemical carcinogenesis, mutagenicity in vitro, and drug toxicity--manifested as hepatic necrosis, aplastic anemia, or shortened survival time. Pregnant mice received a single injection of 3-methylcholanthrene or 7,12-dimethylbenz[a] anthracene between day 5 and day 13 of gestation, and the uterine contents were examined on day 18. Striking increases were observed in the incidence of MC-1 and DMBA-induced resorptions and congenital malformations in the aromatic hydrocarbon "responsive" C57BL/6N inbred strain, and of DMBA-induced resorptions in the "responsive" C3H/HeN and BALB/cAnN strains--when compared with the similarly treated genetically "nonresponsive" AKR/N strain. These data suggest but do not prove that an association exists between the Ah locus and developmental toxicity, i.e., teratogenesis. Although numerous teratogenic differences among inbred mouse strains have previously reported, this study is unique in that the genetic differences in teratogenicity observed were predicted in advance on the basis of known differences among these strains in polycyclic hydrocarbon metabolism regulated by the Ah locus.     

The Ah Phenotype. Survey of Forty-Eight Rat Strains and Twenty Inbred Mouse Strains

Forty-four inbred and four randombred rat strains and 20 inbred mouse strains were examined for their Ah phenotype by determining the induction of liver microsomal aryl hydrocarbon (benzo[a]pyrene) hydroxylase activity (EC 1.14.14.1) by intraperitoneal treatment with either β-naphthoflavone or 3-methylcholanthrene. All 48 rat strains were found to be Ah-responsive. The maximally induced hydroxylase specific activities of the ALB/Pit, MNR/Pit, MR/Pit, SHR/Pit, and Sprague-Dawley strains were of the same order of magnitude as the basal hydroxylase specific activities of the ACI/Pit, F344/Pit, OKA/Pit, and MNR/N strains. Six of the 20 mouse strains were Ah-nonresponsive (i.e. lacking the normal induction response and presumably lacking detectable amounts of the Ah receptor). The basal hydroxylase specific activities of the BDL/N, NFS/N, STAR/N, and ST/JN mouse strains were more than twice as high as the maximally induced hydroxylase specific activity of the CBA/HT strain.——To date, 24 Ah-nonresponsive mouse strains have been identified, out of a total of 68 known to have been characterized. The reasons for not finding a single Ah-nonresponsive inbred rat strain—as compared with about one Ah-nonresponsive inbred mouse strain found for every three examined—remain unknown.     

Quantitative trait locus mapping of genes associated with vacuolation in the adrenal X-zone of the DDD/Sgn inbred mouse

Background

Adrenal gland of mice contains a transient zone between the adrenal cortex and the adrenal medulla: the X-zone. There are clear strain differences in terms of X-zone morphology. Nulliparous females of the inbred mouse DDD strain develop adrenal X-zones containing exclusively vacuolated cells, whereas females of the inbred mouse B6 strain develop X-zones containing only non-vacuolated cells. The X-zone vacuolation is a physiologic process associated with the X-zone degeneration and is tightly regulated by genetic factors. Identification of the genetic factors controlling such strain differences should help analyze the X-zone function. In this study, a quantitative trait locus (QTL) analysis for the extent of X-zone vacuolation was performed for two types of F₂ female mice: F₂A ^y mice (F₂ mice with the A ^y allele) and F₂ non-A ^y mice (F₂ mice without the A ^y allele). These were produced by crossing B6 females and DDD.Cg-A ^y males. DDD.Cg-A ^y is a congenic mouse strain for the A ^y allele at the agouti locus and is used for this study because a close association between the X-zone morphology and the agouti locus genotype has been suggested. The A ^y allele is dominant and homozygous lethal; therefore, living A ^y mice are invariably heterozygotes.

Results

Single QTL scans identified significant QTLs on chromosomes 1, 2, 6, and X for F₂ non-A ^y mice, and on chromosomes 2, 6, and 12 for F₂A ^y mice. The QTL on chromosome 2 was considered to be because of the agouti locus, which has been suggested to be associated with X-zone vacuolation. A significant QTL that interacted with the agouti locus was identified on chromosome 8.

Conclusions

The extent of X-zone vacuolation in DDD females was controlled by multiple genes with complex interactions. The murine X-zone is considered analogous structure to the human fetal zone. Therefore, the results of this study will aid in understanding function of not only of the X-zone but also of the human fetal zone. Identifying the genes responsible for the QTLs will be essential for understanding the molecular basis of X-zone function, which is currently unclear.

     

Genetic Variation at a Locus (TAM-1) for Submaxillary Gland Protease in the Mouse and Its Location on Chromosome 7

Electrophoretic and activity variants for a testosterone-induced esteroprotease have been discovered in submaxillary glands from inbred strains of mice. The enzyme is tentatively designated tamase (TAM-1) and the variant genetic locus is Tam-1. The alleles Tam-1^a and Tam-1^b determine electrophoretically distinct zones of tamase activity, while Tam-1^c produces no detectable enzyme activity. Data from recombinant inbred strains and B6AF₁ x B6 and B6D2F₁ x B6 backcrosses established linkage of Tam-1 to glucose phosphate isomerase (Gpi-1), pink-eyed dilution (p) and β-hemoglobin (Hbb) on chromosome 7. The gene order is Gpi-1—Tam-1—p—Hbb. Analysis of congenic resistant strains indicates that Tam-1 is closely linked to the minor histocompatibility locus, H-4. TAM-1 was not cross-reactive with antisera to mouse nerve growth factor, submaxillary renin, or tamases A and D.     

Genetic expression of aryl hydrocarbon hydroxylase activity in the mouse: Distinction between the “responsive” homozygote and heterozygote at the Ah locus

β-Napththoflavone administration induces certain monooxygenase activities, such as aryl hydrocarbon (benzo[a]pyrene) hydroxylase, and cytochrome P₁-450 formation in the “responsive” C57BL/6 and C3H/He inbred mouse strains, whereas these changes are absent or relatively small in the so-called nonresponsive $\text{DBA}\text{2}$ inbred strain. Dose-response curves—with the use of large numbers of animals of the same age and sex and with either β-naphthoflavone or the much more potent 2,3,7,8-tetrachlorodibenzo-p-dioxin as inducer—reveal a small, but statistically significant, difference in the hydroxylase induction between the $\text{C}\text{57}\text{BL}\text{6}\text{J}$ homozygote and the ($\text{C}\text{57}\text{BL}\text{6}\text{J}$)($\text{DBA}\text{2}\text{J}$)F₁ heterozygote in liver, kidney, bowel, and lung. The (C3H/HeJ)($\text{DBA}\text{2}\text{J}$)F₁ heterozygote displays additive inheritance in each of these same tissues.     

Genetic dissection of testis weight in mice: quantitative trait locus analysis using F2 intercrosses between strains with extreme testis weight, and association study using Y-consomic strains

In the present study, dissection of genetic bases of testis weight in mice was performed. Autosomes and the X chromosome were searched using traditional quantitative trait locus (QTL) scans, and the Y chromosome was searched by association studies of Y-consomic strains. QTL analysis was performed in ??DDD?×???CBA F₂ mice; the inbred mouse DDD has the heaviest testes, whereas the inbred mouse CBA has the lightest testes. Two significant testis weight QTLs were identified on chromosomes 1 and X. A DDD allele was associated with increased and decreased testis weight at the locus on chromosomes 1 and X, respectively. In the reciprocal cross ??CBA?×???DDD F₂ mice, QTL on chromosome 1, and not on chromosome X, had a significant effect on testis weight. The DDD allele at the X-linked locus could not sustain testis weight in combination with the Y chromosome of the CBA strain. The Y chromosome per se had a significant effect on testis weight, i.e., DH-Chr Y^DDD had significantly heavier testes than DH-Chr Y^CBA. On the basis of the results of Y-chromosome-wide association studies using 17 Y-consomic strains, variations in Uty, Usp9y, and Sry were significantly associated with testis weight. Thus, testis weight is a complex quantitative phenotype controlled by multiple genes on autosomes and sex chromosomes and their interactions.     

Expression of hepatic pyruvate carboxylase mRNA in C57BL/6J Ahb/b and congenic Ahd/d mice exposed to 2,3,7,8-tetrachlorodibenzo-p-dioxin

The activity and level of hepatic pyruvate carboxylase (PC) has been reported to be altered by 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) treatment in mice. If alteration in PC level/activity by TCDD influences TCDD toxicity, one would expect to observe an early post-exposure reduction in PC mRNA. To examine the molecular events responsible for the alteration of PC activity in livers of TCDD-treated mice, we designed a synthetic DNA oligonucleotide probe specific for PC mRNA. Northern blot analysis on RNA extracts from hepatic tissue at various times and doses post-TCDD exposure were done. Furthermore, to elucidate the role of the dioxin Ah locus on alterations of PC activity by TCDD, we utilized C57BL/6J (Ah^b/b, Ah high TCDD affinity) mice and a congenic (Ah^d/d, Ah low TCDD affinity) mouse strain. At 8 days post TCDD treatment, a dose-dependent reduction of hepatic PC mRNA levels was observed in Ah^b/b mice. The response, reduction in PC mRNA levels, in the Ah^b/b strain was about 10-fold greater than that of comparably exposed congenic Ah^d/d mice. These results indicate that previously reported reductions in PC activity/level by TCDD treatment of mice is a consequence of a reduction in PC mRNA levels and that the effect requires a competent Ah receptor. © 1996 John Wiley & Sons, Inc.     

A Missing PD-L1/PD-1 Coinhibition Regulates Diabetes Induction by Preproinsulin-Specific CD8 T-Cells in an Epitope-Specific Manner

Coinhibitory PD-1/PD-L1 (B7-H1) interactions provide critical signals for the regulation of autoreactive T-cell responses. We established mouse models, expressing the costimulator molecule B7.1 (CD80) on pancreatic beta cells (RIP-B7.1 tg mice) or are deficient in coinhibitory PD-L1 or PD-1 molecules (PD-L1^−/− and PD-1^−/− mice), to study induction of preproinsulin (ppins)-specific CD8 T-cell responses and experimental autoimmune diabetes (EAD) by DNA-based immunization. RIP-B7.1 tg mice allowed us to identify two CD8 T-cell specificities: pCI/ppins DNA exclusively induced K^b/A_12–21-specific CD8 T-cells and EAD, whereas pCI/ppinsΔA_12–21 DNA (encoding ppins without the COOH-terminal A_12–21 epitope) elicited K^b/B_22–29-specific CD8 T-cells and EAD. Specific expression/processing of mutant ppinsΔA_12–21 (but not ppins) in non-beta cells, targeted by intramuscular DNA-injection, thus facilitated induction of K^b/B_22–29-specific CD8 T-cells. The A_12–21 epitope binds K^b molecules with a very low avidity as compared with B_22–29. Interestingly, immunization of coinhibition-deficient PD-L1^−/− or PD-1^−/− mice with pCI/ppins induced K^b/A_12–21-monospecific CD8 T-cells and EAD but injections with pCI/ppinsΔA_12–21 did neither recruit K^b/B_22–29-specific CD8 T-cells into the pancreatic target tissue nor induce EAD. PpinsΔA_12–21/(K^b/B_22–29)-mediated EAD was efficiently restored in RIP-B7.1⁺/PD-L1^−/− mice, differing from PD-L1^−/− mice only in the tg B7.1 expression in beta cells. Alternatively, an ongoing beta cell destruction and tissue inflammation, initiated by ppins/(K^b/A_12–21)-specific CD8 T-cells in pCI/ppins+pCI/ppinsΔA_12–21 co-immunized PD-L1^−/− mice, facilitated the expansion of ppinsΔA_12–21/(K^b/B_22–29)-specific CD8 T-cells. CD8 T-cells specific for the high-affinity K^b/B_22–29- (but not the low-affinity K^b/A_12–21)-epitope thus require stimulatory ´help from beta cells or inflamed islets to expand in PD-L1-deficient mice. The new PD-1/PD-L1 diabetes models may be valuable tools to study under well controlled experimental conditions distinct hierarchies of autoreactive CD8 T-cell responses, which trigger the initial steps of beta cell destruction or emerge during the pathogenic progression of EAD.     

Polymorphism of minor histocompatibility genes in wild mice

H-2^b-restricted cytolytic T lymphocytes (CTL) were generated against H-1, H-3, and H-4 antigens and tested against target cells of F₁ hybrids between wild mice and inbred H-2 ^b mice. The congenic strain combinations for the CTL production were such that they tested one allele each at the H-1 and H-4 loci and four alleles at the H-3 locus. Most of the wild mice tested came from Southern Germany, but a few mice came from other European countries and Egypt and Israel. Virtually all wild mice typed as positive with CTL directed against H-3^b and H-4^b antigens; 32% of the F₁ hybrids tested reacted with anti-H-1^cCTL and 9% reacted with anti-H-3^d CTL. The positive results were not caused by cross-reaction with allogeneic H-2 antigens controlled by the major histocompatibility complex (Mhc) genes of the wild mice. At least some of the H-3 and H-4 antigens detected by the CTL in the F₁ hybrid were not identical with antigens of the immunizing strains. These results suggest a relatively low degree of polymorphism of the tested minor H loci in wild mice and further support the notion that minor H loci are unrelated to the Mhc.     

Specific induction of hepatic cytochrome p4501a-2 in C57BL/6 and DBA/2 mice treated with 2-amino-3-methylimidazo[4,5-f]quinoline (IQ)

The food mutagen/carcinogen amino-3-methylimidazo[4,5-f]quinoline (IQ) is activated by cytochrome p4501a-2 via N-hydrox-ylation; various P450s may contribute to detoxification via ring hydroxylation. Alterations in P450 levels by IQ treatment might therefore influence its toxicity. To examine the role of Ah locus genotype on the biochemical effects of IQ, C57BL/6 (Ah^bAh^b; p450Ia-½ inducible) and DBA/2 (Ah_dAh_d, noninducible) mice of both sexes were given IQ at varying doses, with different vehicles and routes of administration. Livers taken after 24 hours were assessed for total cytochrome p450 and activities of ethoxyresorufin-O-deethylase (EROD, a p4501a-l activity, inducible in Ah^b mice), meth-oxyresorufin-O-demethylase (MROD, a p4501a-2 activity), and benzyloxyresorufin-O-dealkylase (BzROD, an activity of p4502b). There was little effect on total cytochrome p450, but all three enzyme activities were often induced, a maximum of 2.5-fold, in both sexes and in DBA/2 as well as C57BL/6 mice. However, Western immunoblot analysis with monoclonal antibodies demonstrated an increase only in p4501a-2 protein. p4501a-l remained undetectable. A monoclonal antibody to p4502-b recognized one protein band in liver mi-crosomes from males and two bands in female mice of both strains. Amounts of these proteins were not altered by IQ treatment. Thus, IQ specifically, if moderately, induces its activating enzyme, p4501a-2, in a process that was not clearly related to Ah responsiveness.     

Differences in H-2 recombinant mice in the β-naphthoflavone inducibility of the mixed function monooxygenase,P1-450

The influence of the major histocompatibility complex (H-2 in mouse) on induction of cytochrome P-450-dependent monooxygenase (P₁-450) by the prototype polyaromatic hydrocarbon (PAH), -naphthoflavone, was investigated in C57BL/10 Sn (B10) recombinant congenic mice. The cytosolic Ah-receptor level, as measured by specific binding with [³H]-2, 3, 7, 8-tetrachlorodibenzo-p-dioxin, was significantly lower in B10.A and B10.A (5R) than in either B10, B10.BR, or B10.A(2R), suggesting that the D region of H-2 influences Ah-receptor levels. The responsiveness to -naphthoflavone, as determined by increased catalytic activity toward benzo(a)pyrene and 7-ethoxycoumarin, was considerably lower in 1310, B10.A, and B10.A(5R) than in B10.BR and somewhat lower than in B10.A(2R) or B10.A(4R) mice. The lower PAH responsiveness in B10.A and B10.A(5R) correlated with their lower Ah-receptor levels while that in B10 appeared to reflect a K-A region influence on PAH responsiveness that was not due to changed Ah-receptor levels. Thus, we conclude that more than one H-2 locus may influence PAH responsiveness, and by different mechanisms.     

Response of murine epidermis to 2,3,7,8-tetrachlorodibenzo-p-dioxin: Interaction of the Ah and hr loci

2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD) and related halogenated aromatic hydrocarbons produce epidermal hyperplasia, hyperkeratosis and sebaceous gland metaplasia in the skin of mice bearing the recessive mutation (hr/hr) hairless. This response is mediated through the cytosol receptor protein: the structure-activity relationship for receptor binding corresponds to that for production of the skin lesion, and these histopathological changes segregate with the genetic polymorphism at the Ah locus, the locus determining the cytosol receptor. In HRS/J mice, an inbred strain segregating for the hr locus, both hairless (hr/hr) and haired (hr/ +) mice possess the high-affinity cytosol receptor and respond to TCDD with the induction of epidermal aryl hydrocarbon hydroxylase activity, a receptor-mediated biochemical response; however, only hr/hr mice develop the proliferative/metaplastic skin response. We propose a genetic model for the interaction of the Ah and hr loci, to account for the differential response to TCDD observed in the skin of HRS/J hr/hr and hr/ + mice.     

Mendelian inheritance of variations in β-galactosidase activities in the house mouse

A genetic test of differences in -galactosidase activities in three mouse tissues, liver, kidney, and spleen, is demonstrated. Activities fall in three distinct categories in F ₂ crosses between the two inbred strains C57BL/K1 and DBA/2/K1. C57 mice consistently show high activities in all three tissues, and DBA mice show low activities except for some male kidneys. F ₁ mice are intermediate to the parental strains. There seems to be a simple mendelian ratio 1:2:1, between the numbers of animals belonging to the three activity classes in F ₂ crosses and a 1:1 ratio in backcrosses. Thus it is suggested that one single locus is responsible for most of the differences seen in this system.This work was supported by the Nilsson-Ehle fund and the Marcus Borgström fund.     

Quantitative trait loci on chromosome 5 for susceptibility to frequency-specific effects on hearing in DBA/2J mice

The DBA/2J strain is a model for early-onset, progressive hearing loss in humans, as confirmed in the present study. DBA/2J mice showed progression of hearing loss to low-frequency sounds from ultrasonic-frequency sounds and profound hearing loss at all frequencies before 7 months of age. It is known that the early-onset hearing loss of DBA/2J mice is caused by affects in the ahl (Cdh23^ahl) and ahl8 (Fscn2^ahl8) alleles of the cadherin 23 and fascin 2 genes, respectively. Although the strong contributions of the Fscn2^ahl8 allele were detected in hearing loss at 8- and 16-kHz stimuli with LOD scores of 5.02 at 8 kHz and 8.84 at 16 kHz, hearing loss effects were also demonstrated for three new quantitative trait loci (QTLs) for the intervals of 50.3–54.5, 64.6–119.9, and 119.9–137.0 Mb, respectively, on chromosome 5, with significant LOD scores of 2.80–3.91 for specific high-frequency hearing loss at 16 kHz by quantitative trait loci linkage mapping using a (DBA/2J × C57BL/6J) F₁ × DBA/2J backcross mice. Moreover, we showed that the contribution of Fscn2^ahl8 to early-onset hearing loss with 32-kHz stimuli is extremely low and raised the possibility of effects from the Cdh23^ahl allele and another dominant quantitative trait locus (loci) for hearing loss at this ultrasonic frequency. Therefore, our results suggested that frequency-specific QTLs control early-onset hearing loss in DBA/2J mice.     

Electrogenic properties of the cloned Na+/glucose cotransporter: I. Voltage-clamp studies

Summary Cystic fibrosis (CF) is characterized by abnormal epithelial Cl^– conductance (G_Cl). In vitro studies that have shown that cAMP regulation is an intrinsic property of the CF-affected G_Cl(CF-G_Cl) have been carried out previously on cultured secretory cells and on nonepithelial cells. Even though G_Cl in absorption is defective in CF, a clear demonstration of cAMP regulation of CF-G_Cl in a purely absorptive tissue is lacking. We studied the cAMP regulation of CF-G_Cl in the microperfused intact human reabsorptive sweat duct. About 40% of the ducts responded to cAMP (responsive) while the remainder of the ducts did not. In responsive ducts, cAMP-elevating agents: -adrenergic agonist isoproterenol (IPR), CPT-cAMP, forskolin, theophylline or IBMX increased G _tby about 2.3-fold (n = no. of ducts = 8). Removal of media Cl^–, but not amiloride pretreatment (in the lumen), abolished the cAMP response, indicating exclusive activation of G_Cl. cAMP activated both apical and basolateral G_Cl. cAMP hyperpolarized gluconate: Cl^– (lumen: bath) transepithelial bionic potentials (V _t=–20.3±5.2 mV, mean ±se, n=9) and transepithelial 3 1 luminal NaCl dilution diffusion potentials (V _t=–8.8±2.9 mV, n=5). cAMP activated basolateral G_Cl as indicated by increased bi-ionic (gluconate: Cl^–, bath: lumen) diffusion potentials (by about 12 mV). The voltage divider ratio in symmetric NaCl solutions increased by 60%. Compared to responsive ducts, nonresponsive ducts were characterized by smaller spontaneous transepithelial potentials in symmetrical Ringer's solution (V _t=–6.9±0.8 mV, n=24, nonresponsive vs. –19.4±1.8 mV, n=22, responsive ducts) but larger bi-ionic potentials (–94±6 mV, n=35, nonresponsive vs. –65±5 mV, n=17, responsive ducts) and dilution diffusion potentials (–40±5 mV, n=11, nonresponsive vs. –29±3 mV, n=7, responsive ducts). These results are consistent with an inherently (prestimulus) maximal activation of G_Cl in nonresponsive ducts and submaximal activation of G_Cl in responsive ducts. We conclude that cAMP activates CF-G _Cl which is expressed and abnormal in both apical and basal membranes of this absorptive epithelium in CF.Abbreviations CF cystic fibrosis - G _t transepithelial conductance - V _b electrical potential across the basolateral membrane - V _a electrical potential across the apical membrane - V _t transepithelial potential - V _b transepithelial currentinduced voltage deflections across the basolateral membrane - V _a transepithelial current-induced voltage deflections across the apical membrane - V _t transepithelial current-induced voltage deflection across the epithelium - VDR voltage divider ratio - G_Cl transepithelial Cl^– conductance - CF-G_Cl cystic fibrosis-affected Cl^– conductance - EMF electromotive force - IPR isoproterenol - IBMX 3-isobutyl-1-methylxanthine - CPT-cAMP chlorophenylthio-adenosine 3-5 cyclic monophosphate - PGE₂ prostaglandin E₂     

Allozyme Segregation Ratios in the Interspecific Cross CUCURBITA MAXIMAxC. ECUADORENSIS Suggest That Hybrid Breakdown Is Not Caused by Minor Alterations in Chromosome Structure

The parentals of the interspecific cross Cucurbita maxima x C. ecuadorensis had different isozyme phenotypes for 12 enzyme systems. Characterization of the systems demonstrated that the expression and intracellular distribution of the isozymes were similar to those in other plant taxa; however, a considerable number of duplicate loci were identified, indicative of a polyploid ancestry for Cucurbita. Genetic analysis provided evidence for 20 loci segregating in F₂ and backcross populations. Five linkage groups were identified, consisting of the loci Aat-mb – – Mdh-m2; Gal-1 – – Gal-2; Aat-p2 – – Gpi-c2; Acp-1 – – Pgm-c2 – – Pgm-p; and Est-1 – – Tpi-c2. Significant deviations from Mendelian segregation ratios were observed in 14% of the data sets for individual loci. However, these instances were scattered among the loci, no single locus consistently displaying skewed ratios. Recombination frequencies between linked loci were similar to those observed in intraspecific crosses, and the ratio of heterozygous to homozygous genotypes in backcross populations was very close to one. These results suggest that small differences in chromosome structure were not the major cause of the loss of fertility observed in F₂ and backcross populations.     

Genetic Analysis of Audiogenic Seizure Susceptibility in C57bl/6j x Dba/2j Recombinant Inbred Strains of Mice

The inheritance of susceptibility to audiogenic seizures (ASs) was studied in the C57BL/6J (B6) and DBA/2J (D2) progenitor strains, their reciprocal F₁ hybrids, backcross generations and in 21 B6 x D2 recombinant inbred (RI) strains of mice at 21 days of age. All of the D2 mice tested experienced ASs, whereas none of the B6 mice responded to the sound. Although 23% of the F₁ mice experienced wild running, they were generally as resistant to ASs as their B6 parents. Mice of the F₁ x B6 backcross generation were also resistant to ASs. In the F₁ x D2 backcross generation, however, a significant preponderance (72%) of AS-susceptible mice was found. No significant association was observed between any of the four coat-color phenotypes that were segregating in this generation and susceptibility to ASs. A continuous distribution of mean seizure severity scores and several new audiogenic response phenotypes, distinctly different from the phenotypes of either progenitor strain, were found among the 21 RI strains. These and the results from the F₁ x D2 backcross generation suggest that the difference in AS susceptibility between 21-day-old B6 and D2 mice cannot be under the control of a single locus. In addition, no association was found between AS susceptibility and the chromosome 4 markers Lyb-2, Mup-1 and b among the 21 RI strains. An association was observed, however, between AS susceptibility and the Ah locus. Several of the RI strains that were AS resistant at 21 days of age became AS susceptible as adults. One RI strain was susceptible to ASs at both young and adult ages. The B6, D2 and F₁ mice were completely resistant to ASs at adult ages. Genetic differences were found among the RI strains for the incidence, onset, duration, and type of severity of ASs. A remarkable amount of phenotypic variability in the audiogenic response, which can be attributed only to the influence of environmental factors, occurred within several of the RI strains. A multiple-factor mode of inheritance involving a physiological threshold can account for our observations.