Proceedings of the National Academy of Sciences

Schally, A V; Paz-Bouza, J I; Schlosser, J V; Karashima, T; Debeljuk, L; Gandle, B; Sampson, M

doi: N/Apmid: 2949328

Possible protective effects of the agonist D-Trp6LH-RH (analog of luteinizing hormone-releasing hormone in which Gly-6 is replaced by D-tryptophan) and antagonist N-Ac-D-Phe(pCI)1,2,D-Trp3,D-Arg6,D-Ala10LH-RH against testicular damage caused by x-radiation were investigated in rats. Three months after being subjected to x-irradiation of the testes with 415 or 622 rads, control rats showed marked reduction in the weights of the testes and elevated levels of LH and follicle-stimulating hormone (FSH), indicating tubular damage. Histological studies demonstrated that, in testes of rats given 415 rads, most seminiferous tubules had only Sertoli cells and no germinal cells, and, in the group given 622 rads, the depression of spermatogenesis was even more marked. Rats pretreated for 50 days with LH-RH antagonist (1000 micrograms/kg of body weight per day) showed a complete recovery of testicular weights and spermatogenesis 3 months after 415 rads and showed partial recovery after 622 rads, and LH and FSH levels returned to normal in both of these groups. Thus, pretreatment of rats with LH-RH antagonist, by reversibly inhibiting gonadal function, protected the germinal cells of the testes against damaging effects of x-rays. Three experiments were also carried out in which the rats were pretreated for 1-2 months with long-acting microcapsules of the agonist D-Trp6LH-RH, liberating 25 micrograms of the agonist per day. Some rats were then subjected to gonadal irradiation with 415 or 622 rads and allowed a recovery period of 2-4 months. In spite of pretreatment with D-Trp6LH-RH, testicular weights were significantly lower and LH or FSH levels were elevated in the irradiated groups as compared with nonirradiated controls. The recovery of spermatogenesis was incomplete, and there was a decrease in the number of germinal cells after 415 rads and especially after 622 rads. On the basis of testicular weights, histology, and gonadotropin levels, it could be concluded that the agonist D-Trp6LH-RH did not protect the rat testes exposed to 622 rads and, at most, only partially protected against 415 rads. These results suggest that pretreatment with LH-RH antagonists and possibly agonists, might decrease the testicular damage caused by radiation and accelerate the recovery of reproductive functions.

Borek, C; Ong, A; Mason, H

doi: N/Apmid: 3027705

DNAs from hamster embryo cells and mouse C3H/10T1/2 cells transformed in vitro by x-irradiation into malignant cells transmit the radiation transformation phenotype by producing transformed colonies (transfectants) in two mouse recipient lines, the NIH 3T3 and C3H/101/2 cells, and in a rat cell line, the Rat-2 cells. DNAs from unirradiated cells or irradiated and visibly untransformed cells do not produce transformed colonies. The transfectants grow in agar and form tumors in nude mice. Treatment of the DNAs with restriction endonucleases prior to transfection indicates that the same transforming gene (oncogene) is present in each of the transformed mouse cells and is the same in each of the transformed hamster cells. Southern blot analysis of 3T3 or Rat-2 transfectants carrying oncogenes from radiation-transformed C3H/10T1/2 or hamster cells indicates that the oncogenes responsible for the transformation of 3T3 cells are not the Ki-ras, Ha-ras, or N-ras genes, nor are they neu, trk, raf, abl, or fms, although quick blot analysis using 11 oncogene probes detected increased transcripts of c-abl and c-fms in the 3T3 transformants containing oncogenic sequences from the x-ray-transformed C3H/10T1/2 cells. The work demonstrates that DNAs from mammalian cells transformed into malignancy by direct exposure in vitro to radiation contain genetic sequences with detectable transforming activity in three recipient cell lines. The results provide evidence that DNA is the target of radiation carcinogenesis induced at a cellular level in vitro. The experiments indicate that malignant radiogenic transformation in vitro of hamster embryo and mouse C3H/10T1/2 cells involves the activation of unique non-ras transforming genes, which heretofore have not been described.

Starosta-Rubinstein, S; Ciliax, B J; Penney, J B; McKeever, P; Young, A B

doi: N/Apmid: 3027710

Two types of benzodiazepine receptors have been demonstrated in mammalian tissues, one which is localized on neuronal elements in brain and the other, on glial cells and in peripheral tissues such as kidney. In vivo administration of 3H-labeled PK 11195 1-(2-chlorophenyl-N-methyl-N-(1-methylpropyl)-3-isoquinoline carboxamide or 3Hflunitrazepam with 5 mg of clonazepam per kg to rats with intracranial C6 gliomas resulted in high levels of tritiated-drug binding to the tumor as shown by quantitative autoradiography. Pharmacological studies indicated that the bound drugs labeled the peripheral benzodiazepine binding site. Binding to the peripheral benzodiazepine site was confirmed primarily to malignant cells with little binding to adjacent normal brain tissue or to necrotic tissue. Tumor cell binding was completely inhibited by preadministration of the peripheral benzodiazepine blocking agent PK 11195 at 5 mg/kg. The centrally selective benzodiazepine ligand clonazepam had no effect on PK 11195 binding to the tumor cells. When binding to other tumor cell lines grown in nude mice and nude athymic rats was evaluated, little or no peripheral benzodiazepine binding was detected on human pheochromocytoma (RN1) and neuroblastoma (SK-N-MC, SK-N-SH) tumor cells, respectively. However, high densities of peripheral benzodiazepine binding sites were observed on tumors derived from a human glioma cell line (ATCC HTB 14, U-87 MG). The presence of high concentrations of specific peripheral benzodiazepine receptors on glial tumors suggests that human primary central nervous system tumors could be imaged and diagnosed using peripheral benzodiazepine ligands labeled with positron- or gamma-emitting isotopes.

Tanaka, J C; Furman, R E; Cobbs, W H; Mueller, P

doi: N/Apmid: 3027699

The light-modulated current of vertebrate retinal rods flows through a 3',5'-cyclic GMP-dependent conductance located in the outer segment plasma membrane. We report the incorporation into planar bilayers of a conductance derived from vertebrate rod outer segment membranes specifically activated by cGMP but not by cAMP, 5'-GMP, GTP, or 5'-AMP. When the mean currents were measured as a function of increasing cGMP concentration, maximal activation occurred at concentrations less than 50 microM. Washout of cGMP rapidly reversed the effect. The apparent half-saturating concentrations were between 12 and 27 microM. Sodium, lithium, cesium, and potassium supported current in the presence of low concentrations of Ca2+, Mg2+, and 100 microM cGMP; choline did not. Removal of the divalent cations reversibly increased the currents. When calcium was the only current-carrying cation, attenuated currents were seen. These experiments support the hypothesis that calcium is a permeant blocker of the conductance. At low concentrations of cGMP in solutions also containing 0.5 mM EDTA, brief current spikes occurred with amplitudes from 0.5 to 4 pA at 50 mV. These spikes differed from the well-defined, unitary conductance steps usually associated with the opening and closing of ion channels. Occasionally we saw longer-lasting channel-like events; however, amplitude histograms did not resolve discrete conductance levels.

Newman, S; Kitamura, K; Campagnoni, A T

doi: N/Apmid: 2433693

The primary sequences of four molecular mass variants (14, 17, 18.5, and 21.5 kDa) of the mouse myelin basic protein (MBP) have recently been determined through analysis of cDNA clones of their mRNAs. The mRNAs coding for the four MBP variants are thought to arise by differential splicing of two exons (exons 2 and 6) from a single gene. In contrast, exons 2 and 5 may be spliced out in the posttranscriptional processing of the human MBP gene. To investigate the possibility that a third exon (exon 5) may also be differentially spliced out in the processing of the mouse MBP gene transcript, a mouse cDNA library was screened to search for cDNAs missing exon 5. A MBP cDNA was isolated whose coding region specified a fifth mouse MBP variant with a molecular mass of approximately equal to 17 kDa. The mass of this variant (17,257 Da) is so close to that of the other 17-kDa mouse MBP (17,224 Da) that the two would be indistinguishable on NaDodSO4/polyacrylamide gels. Analysis of the sequence of the cDNA clone indicates that excision of exons 2 and 5 of the mouse MBP gene would produce the mRNA encoding this newly described 17-kDa MBP, whereas excision of exon 6 would produce the mRNA for the other 17-kDa MBP variant. Thus, the "17-kDa" mouse MBP consists of at least two molecular forms with very similar molecular masses but markedly different primary sequences. Of five full-length or near full-length cDNAs representing 17-kDa MBPs, one was missing exons 2 and 5 and four were missing exon 6.

Maxwell, A; Craigie, R; Mizuuchi, K

doi: N/Apmid: 2949325

A DNA strand-transfer reaction is an early step in the transposition of phage Mu. It has been shown that an efficient reaction in vitro requires, in addition to buffer and salt, only the Mu A protein, Mu B protein, host protein HU, ATP, and Mg2+. We have determined that, of the three protein factors involved, only the Mu B protein has an ATPase activity. The Mu B ATPase is stimulated by Mu A protein and DNA but not by either of these factors alone. Double-stranded DNA is a much better cofactor than single-stranded DNA, but there is no apparent sequence specificity. In the absence of the Mu B protein and/or ATP, the intermolecular Mu DNA strand-transfer reaction is extremely inefficient, and the strand-transfer products are predominantly the result of an intramolecular reaction. This contrasts with the efficient intermolecular reaction that occurs if Mu B protein and ATP are provided. The Mu B protein, in the presence of Mu A protein and protein HU, therefore, seems to facilitate interactions between potential DNA target sites and pairs of Mu DNA ends.

Magli, M C; Dick, J E; Huszar, D; Bernstein, A; Phillips, R A

doi: N/Apmid: 3027704

Retrovirus vectors offer a simple and highly efficient method for introducing new genes into mammalian cells. Here, we have examined the efficiency of gene transfer into hematopoietic cells with retrovirus vectors carrying the neomycin (neo) resistance gene expressed from different transcriptional regulatory regions. Direct infection of mouse bone marrow cells resulted in high efficiencies of gene transfer into a variety of myeloid progenitor cells, including pluripotent, erythroid, and granulocyte-macrophage colony-forming cells with all the vectors examined. However, the progeny derived from individual pluripotent progenitor cells infected with different vectors differed markedly in the proportion of G418-resistant progenitor cells, as judged by their ability to survive selection in the drug G418. This biological assay suggests that the highest level of expression was observed when the neo gene was expressed from constructs that contained the herpes thymidine kinase promoter rather than the viral long terminal repeat or the simian virus 40 early region promoter. In contrast, neo gene expression was highest in fibroblasts infected with the vector containing the simian virus 40 early region promoter. These results show that high and sustainable levels of gene expression in hematopoietic cells can be obtained with retrovirus vectors containing appropriate transcriptional regulatory regions.

Lemaitre, M; Bayard, B; Lebleu, B

doi: N/Apmid: 3027696

Antisense oligonucleotides represent an interesting tool for selective inhibition of gene expression, but their efficient introduction within intact cells proved to be difficult to realize. As a step toward this goal, small (13- or 15-mer) synthetic oligodeoxyribonucleotides have been coupled at their 3' ends to epsilon-amino groups of lysine residues of poly(L-lysine) (Mr, 14,000). A 15-mer oligonucleotide-poly(L-lysine) conjugate complementary to the initiation region of vesicular stomatitis virus (VSV) N-protein mRNA specifically inhibits the synthesis of VSV proteins and exerts an antiviral activity against VSV when added in the cell culture medium at doses as low as 100 nM. Neither synthesis of cellular proteins nor multiplication of encephalomyocarditis virus was affected significantly by this oligonucleotide conjugate. The data suggest that oligonucleotide-poly(L-lysine) conjugates might become effective for studies on gene expression regulation and for antiviral chemotherapy.

Ebina, Y; Araki, E; Taira, M; Shimada, F; Mori, M; Craik, C S; Siddle, K; Pierce, S B; Roth, R A; Rutter, W J

doi: N/Apmid: 3101064

To test whether the tyrosine kinase activity of the insulin receptor is crucial for insulin action, we have constructed mutations of the human insulin receptor at Lys-1030, which is in the presumed ATP-binding region. By using oligonucleotide-directed mutagenesis, this lysine residue was replaced with either methionine, arginine, or alanine. Chinese hamster ovary cells were transfected by mutant cDNAs and the expressed insulin receptors were characterized. We show here that none of these mutants exhibited insulin-activated autophosphorylation and kinase activity in vitro. They also do not mediate insulin- and antibody-stimulated uptake of 2-deoxyglucose. The tyrosine kinase activity is thus required for a key physiological response of insulin.

Khani, S C; Zaphiropoulos, P G; Fujita, V S; Porter, T D; Koop, D R; Coon, M J

doi: N/Apmid: 3027695

Administration of ethanol to rabbits is known to induce a unique liver microsomal cytochrome P-450, termed isozyme 3a or P-450ALC, which is responsible for the increased oxidation of ethanol and other alcohols and the activation of toxic or carcinogenic compounds such as acetaminophen and N-nitrosodimethylamine. To further characterize this cytochrome P-450 we have identified cDNA clones to isozyme 3a by immunoscreening, DNA hybridization, and hybridization-selection. The cDNA sequence determined from two overlapping clones contains an open reading frame of 1416 nucleotides, and the first 25 amino acids of this reading frame correspond to residues 21-45 of cytochrome P-450 3a. The complete polypeptide, including residues 1 to 20, contains 492 amino acids and has a molecular weight of 56,820. Cytochrome P-450 3a is approximately 55% identical in sequence to P-450 isozymes 1 and 3b and 48% identical to isozyme 2. Hybridization of clone p3a-2 to electrophoretically fractionated rabbit liver poly(A)+ RNA revealed multiple bands, but, with a probe derived from the 3' nontranslated portion of this cDNA, only a 1.9-kilobase band was observed. Treatment of rabbits with imidazole, which increases the content of isozyme 3a, resulted in a transient increase in form 3a mRNA, but this was judged to be insufficient to account for the known 4.5-fold increase in form 3a protein. Genomic DNA analysis indicated that the cytochrome P-450 3a gene does not belong to a large subfamily.