Sex difference in the paradoxical response of serum GH to thyrotrophin releasing hormone in cancer patients

It was demonstrated that thyrotropin-releasing hormone (TRH) elicited a paradoxical increase in basal GH levels in cancer patients. Out of 94 cancer patients, 50 were found to be GH responders and this phenomenon was more frequently recognized in female than in male cancer patients. In cancer patients under 59 years of age, the GH response to TRH was significantly greater in females than in males, although there was no sex difference in the GH response in patients above 60 years of age. In female cancer patients, the GH response to TRH was significantly greater in patients under 59 years of age than in patients above 60 years of age, while there was no age difference in the GH response in male cancer patients. It was concluded that paradoxical responses of serum GH to TRH were recognized in 53 per cent of cancer patients and were more frequently observed in female than in male cancer patients.     

Characterization of a new fetal hemoglobin variant, Hb F Izumi A gamma 6Glu replaced by Gly, by molecular secondary ion mass spectrometry

Molecular secondary ion mass spectrometry has characterized the structure of a new fetal hemoglobin variant, Hb F Izumi, without separation of peptides or amino acid analysis. First, the mass spectrum of a tryptic digest of the abnormal gamma globin revealed a decreased by 72 mass units in the molecular mass of peptide T-1,2, indicating the presence of a Glu leads to Gly substitution. Next, the analysis of the digest produced by the addition of staphylococcal protease, which specifically cleaves glutamyl peptide bonds, determined the site of substitution at 6th glutamic acid residue in peptide T-1,2 which contains two glutamic acid residues. Since this mass spectrometric approach provides digitalized data on peptide analysis, we call it 'digit printing'. The high sensitivity of this technique is especially promising for the analysis of molecular abnormality in various genetic disorders.     

Effect of alpha-fluoromethylhistidine on the histamine content of the brain of W/Wv mice devoid of mast cells: turnover of brain histamine

In the brains of W/Wv mutant mice that have no mast cells, the histidine decarboxylase (HDC) level is as high as in the brain of congenic normal mice (+/+), but the histamine content is 53% of that of +/+ mice. The effects of alpha-fluoromethylhistidine (alpha-FMH) on the HDC activity and histamine content of the brain of W/Wv and +/+ mice were examined. In both strains, 30 min after i.p. injection of alpha-FMH the HDC activity of the brain had decreased to 10% of that in untreated mice. The histamine content decreased more gradually, and after 6 h about half of the control level remained in +/+ mice, whereas histamine had disappeared almost completely in W/Wv mice. It is concluded that the portion of the histamine content that was depleted by HDC inhibitor in a short time is derived from non-mast cells, probably neural cells. The half-life of histamine in the brain of W/Wv mice was estimated from the time-dependent decrease in the histamine content of the brain after administration of alpha-FMH: 48 min in the forebrain, 103 min in the midbrain, and 66 min in the hindbrain.     

Ferredoxins in Developing Spinach Cotyledons: The Presence of Two Molecular Species

An antibody for ferredoxin was used to investigate the developmentof ferredoxin during the greening of spinach cotyledons. Ferredoxinwas present in 8-day-old etiolated cotyledons and increasedwith illumination, which means that the synthesis of ferredoxinwas both light dependent and independent. The ferredoxin purified from etiolated cotyledons, greeningcotyledons, and mature leaves was a mixture of two chemicallydistinct molecular species; ferredoxin I and II. The relativecontents of these two species varied with the stage of developmentand the conditions used. Ferredoxin I was identical with that isolated previously asvalidated by its amino acid sequence [Matsubara and Sasaki (1968)J. Biol. Chem. 243: 1732]. The complete amino acid sequenceof the second component, ferredoxin II, was determined as well.It was composed of 97 amino acid residues and differed fromferredoxin I by 25 residues. (Received October 16, 1982; Accepted December 14, 1982)     

Morphological anomalies induced by antimicrotubule agents inBryopsis plumosa

Summary Antimicrotubule agents, colchicine, vinblastine, and griseofulvin, induced conspicuous morphological anomalies inBryopsis plumosa. First, following cessation of protoplasmic streaming within 15 minutes, elongation stopped in a few hours. Second, innumerable protrusions or new growth points generated over the cell flank in a few days. Similar phenomena were observed in the cells which were subjected to high pressure or low temperature both of which are known to disrupt microtubule.These phenomena were investigated with light and electron microscopy. It is suggested that inhibition of microtubule dependent protoplasmic streaming which may function as an intracellular transport system causes such morphological anomalies.     

Reconstitution mechanism of nucleosome core particles mediated by poly(l-glutamic acid)

Poly(l-glutamic acid) has been reported to mediate in vitro nucleosome assembly (Stein, A., Whitlock, J.P., Jr. and Bina, M. (1979) Proc. Natl. Acad. Sci. U.S.A. 76, 5000–5004). To study the reaction mechanism, we have reconstituted nucleosome core particles from chicken erythrocyte core DNA and core histones in the presence of poly(l-glutamic acid) and analyzed the assembly products by polyacrylamide gel electrophoresis. Poly(l-glutamic acid), which binds and forms a large complex with core histones, is replaced with core DNA in the reconstitution process. When histone-poly(l-glutamic acid) complex and core DNA are mixed with a histone:DNA ratio of 1.0, the yield of core particles increases by prolonged reconstitution time. Two phases with a distinct time range appear in the process. In the fast phase within 30 min, 60% of the DNA is involved in products containing histones: reconstituted core particles, a larger nucleoprotein complex and aggregation. In the second phase, the remaining DNA and the DNA in the aggregation decrease, and the core particles increase slowly. The yield of core particles is approx. 60% after 24 h. The slow phase is not observed by reconstitution with a histone:DNA ratio of 2.0 in the initial mixture. The reaction scheme of the assembly process derived from these data is given. Based on the in vitro reaction scheme, the possible role of in vivo ‘nucleosome assembly factors’ is also discussed.     

Distribution of tyrosine hydroxylase in human and animal brain

The activity of tyrosine hydroxylase (EC 1.10.3.1) when assayed under ideal conditions in young human brains, was comparable to that in brains of other species in level of activity and distribution. The highest levels of activity were in the putamen, caudate nucleus and substantia nigra, in keeping with data on other species. The caudate activity in human brain appeared to decrease substantially with increasing age. In both humans and baboons, the enzyme in the neostriatum was particle-bound and inhibited by the 2-amino-4-hydroxy-6,7-dimethyltetrahydropteridine cofactor system. In the substantia nigra it was soluble and stimulated by the 2-amino-4-hydroxy-6,7-dimethyltetrahydropteridine cofactor system. The data suggest that tyrosine hydroxylase may be produced in a soluble form in the cell bodies of the substantia nigra but become bound as it moves toward the nerve endings in the putamen and caudate nucleus. The bound form of the enzyme was unstable but the soluble form exhibited considerable stability.