WIP1, a wound-inducible gene from maize with homology to Bowman-Birk proteinase inhibitors

We have cloned and sequenced a wound-inducible cDNA clone designated WIP1 (for wound-induced protein) from maize coleoptiles. It was isolated by differential screening of a cDNA library prepared from excised maize coleoptile segments. The deduced amino acid sequence predicts a secretory, cysteine-rich protein of 102 residues with a calculated molecular mass of 11 kDa and a typical N-terminal signal sequence. The protein has about 30% identity with various Bowman-Birk type proteinase inhibitors. Most interestingly, it is novel in that it is double-headed with exclusive specificity for chymotrypsin. WIP1 is strongly wound-induced in contrast to other members of the Bowman-Birk proteinase inhibitor family, which occur in seeds and are regulated during development. The response is fast, similar to defenceinduced genes, and measurable as early as 30 min after wounding. Induction can also be evoked in the intact coleoptiles and the signal is systemically transmitted in the coleoptile to adjacent regions of the wounded area. Isolation and analysis of the corresponding genomic clone reveals that WIP1 contains an intron of 90 nucleotides.     

5′-Isothiocyanato-N-1-naphthylphthalamic acid: a chemically reactive site-directed irreversible ligand for phytotropin receptors

A chemically reactive analog of the phytotropin N-1-naphthylphthalamic acid (NPA) was synthesized and evaluated as a site-directed irreversible ligand for the NPA receptor. The NPA analog (5-isothiocyanato-N-1-naphthylphthalamic acid; NCS-NPA) was synthesized in two steps. Pretreatment of etiolated Helianthus hypocotyl segments with NCS-NPA at concentrations in excess of 1 M resulted in a dose-dependent inhibition of basipetal [¹⁴C]IAA transport. Net uptake of IAA by hypocotyl segments was stimulated by NCS-NPA at concentrations of 1 M or greater. NCS-NPA inhibited the saturable binding of [³H]NPA in Helianthus microsomes in a dose-dependent fashion with 50% inhibition occurring at NCS-NPA concentrations of 3 to 10 nM. The binding affinity of [³H]NPA in microsomes pretreated with NCS-NPA followed by extensive washing was substantially reduced. These results demonstrate that NCS-NPA is a site-directed irreversible ligand for the NPA receptor and suggest that it may be of use in the purification and characterization of this biologically important receptor.Abbreviations ANPA 5-amino-naphthylphthalamic acid - IAA indole-3-acetic acid - NCS-NPA 5-isothiocyanato-N-1-naphthylphthalamic acid - NPA N-1-naphthylphthalamic acid - TLC thin-layer chromatography     

Stimulation of Brain Pregnenolone Synthesis by Mitochondrial Diazepam Binding Inhibitor Receptor Ligands In Vivo

Abstract: Evidence that neurosteroids are potent modulators of the action of GABA at GABA_A receptors has prompted the investigation of the mechanism that controls brain neurosteroid synthesis by glial cell mitochondria in vivo. In vitro studies suggest that the interaction of the diazepam binding inhibitor (DBI)—a polypeptide that is abundant in steroidogenic cells—with glial mitochondrial DBI receptors (MDRs) is a crucial step in the physiological regulation of neurosteroid biosynthesis. MDRs bind 4-chlorodiazepam (4′-CD), N,N-di-n-hexyl-2-(4-fluorophenyl)-indol-3-acetamide (FGIN-1–27), and the isoquinoline carboxamide PK 11195 with high affinity, and these ligands have been used to investigate whether the stimulation of glial MDRs increases brain pregnenolone production in vivo. Adrenalectomized and castrated (A-C) male rats (to eliminate peripheral sources of pregnenolone) were pretreated with trilostane (to prevent pregnenolone metabolism to progesterone), and the pregnenolone content in brain regions dissected after fixation with a 0.8-s exposure to microwave irradiation focused to the head was determined by HPLC followed by specific radioimmunoassay. The forebrain and cerebellum of A-C rats contained 4–7 ng of pregnenolone/g of tissue, and the olfactory bulb contained 10–14 ng/g. These concentrations of brain pregnenolone are only 30–40% lower than those of shamoperated rats. In contrast, the plasma pregnenolone content of sham-operated rats was 2–3 ng/ml, but it was only 0.15–0.20 ng/ml in the plasma of A-C rats. In A-C rats, treatment with the MDR ligands 4-CD and FGIN-1–27 increased the pregnenolone content in the brain but failed to change the plasma or peripheral tissue content of this steroid. The effect of 4′-CD on brain pregnenolone content was maximal (70–100% increase) at the dose of 18 μmol/kg, 5–10 min after intravenous injection. The effect of oral administration of FGIN-1–27 on brain pregnenolone content was maximal (80–150% increase) at doses of 400–800 μmollkg and peaked at ～ 1 h. That this effect of FGIN-1–27 was mediated by the MDR was documented by pre-treatment with the MDR partial agonist PK 11195 (100 μmol/kg, i.p.). PK 11195 did not affect basal brain pregnenolone content but prevented the accumulation of brain pregnenolone induced by FGIN-1–27. FGIN-1–27 and 4-CD failed to increase the brain concentration of dehydre epiandrosterone in A-C rats. These data suggest that glial cell MDRs play a role in neurosteroid biosynthesis in vivo.     

Rapid purification of DesPro(2)-Val15-Leu17-aprotinin from the culture broth of a recombinant Saccharomyces cerevisiae

A rapid two-step procedure has been developed for the purification of Despro(2)-Val15-Leu17-aprotinin from the culture supernatant of a recombinant yeast by affinity and ion-exchange chromatography. DesPro(2)-Val15-Leu17-aprotinin was purified to homogeneity, as demonstrated by dodecylsulfate gel electrophoresis and analysis of the N-terminal amino acid sequence. (c) 1993 John Wiley & Sons, Inc.     

Saponin-like substances inhibit α-galactosidase production in the endosperm of fenugreek seeds

When fenugreek (Trigonella foenum-graecum L.) endosperms plus testa (endosperms), which had been isolated from 5-h-imbibed seeds, were incubated for at least 2 h under germination conditions, they leaked substances which, like exogenous abscisic acid (ABA), inhibited the production of fenugreek endosperm -galactosidase. However, unlike ABA, 8 h treatment with these inhibitors had no effect on fenugreek endosperms which had been isolated from 15-h-imbibed seeds and leached for 2 h. This indicated that either their inhibitory action was on processes which were related to the production of -galactosidase and had been completed by this time, or that there might be factors present which inactivate these inhibitors. It was also concluded that the action of the endosperm leachate could not be attributed to the presence of ABA. The activity of the leachate decreased when it originated from endosperms imbibed for periods longer than 25 h and thin-layer chromatography (TLC) of extracts from these endosperms showed decreased contents of the leachable inhibitors as imbibition proceeded. From the seed leachate, which had a TLC pattern and inhibitory action similar to that of the endosperm, were isolated three substances which, when applied to endosperms, inhibited the production of -galactosidase activity. According to their chromatographic behaviour and their reaction with specific reagents, there are strong indications that these substances are saponins. These diffusible saponin-like substances were located in both endosperm and perisperm and their physiological role is discussed.Abbreviations ABA abscisic acid - PEG polyethylenglycol - TLC thin-layer chromatography We wish to thank the Alexander S. Onasis Public Benefit Foundation for a grant to K.Z. and Dr. J.S.G. Reid (University of Stirling, Scotland) for a kind gift of fenugreek seeds.     

Evidence for two different blue-light-receptor systems for the fast responses of stimulation of photosynthetic capacity and acidification of the plant surface in brown algae

Two blue-light responses of Phaeophyta that are expressed within a few seconds of a blue-light stimulus were characterized with respect to their photoreception properties. The first response is the activation of red-light-saturated photosynthesis which can be stimulated to values up to 5 times the rates in red light, depending on the species. The second response is a blue-light-induced acidification measurable at the plant surface. Both responses have similar kinetic characteristics and thus led us initially to hypothesise that they were causally connected in the same transduction mechanism. The two responses have action spectra [measured for Ectocarpus siliculosus (Dillwyn) Lyngb. and Laminaria saccharina (L.) Lamouroux] that are indistinguishable within the relatively large limits of error. However, in all species tested, the threshold sensitivity for blue light of the photosynthetic response is lower than that of the pH-shift by a factor of 2 to 150. Furthermore, stimulation of photosynthesis is sensitive to the flavin inhibitors, KI and phenylacetic acid, but the pH response is not affected by these inhibitors. Thus, the blue-light-induced pH-shift does not cause the stimulation of photosynthesis. In contrast, the different fluence-response relationships of the two responses and particularly the differential effect of the inhibitors are clear evidence for the action of two independent transduction pathways and photoreceptor systems for blue light. At least photoreception for stimulation of photosynthesis involves a flavin-or and a pterin.Abbreviations DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylurea - PAA phenylacetic acid We thank Dr. C. A. Maggs for collecting P. pavonica. This research was supported by National Environment Research Council grant No. GR3/8102.     

Irregular distribution of mammary-derived growth inhibitor in the bovine mammary epithelium

Localization of a mammary-derived growth inhibitor (MDGI) in the bovine mammary gland was verified by light-and electron-microscopic methods. Expression of MDGI, which is known to inhibit the growth of mammary epithelial cell lines in vitro, was found to be highest in the late pregnant and in the lactating state. A combination of immunohistochemical and immunocytochemical methods with semi- and ultrathin resin sections revealed marked variations in MDGI staining. High MDGI levels were predominantly detectable in epithelial cells with large milk fat droplets. Distinct cell types that were almost free of label could be identified among bovine mammary epithelial cells that always exhibited high MDGI levels. Similar results were obtained when using a serum-free organ culture system in which MDGI was hormonally induced in cell types of comparable differentiation state. The specific occurrence of the growth inhibitor in developing alveoli and certain cell types points to the association between MDGI expression and functional differentiation in the normal mammary gland.     

Basic trypsin-subtilisin inhibitor from marine turtle egg white: Hydrodynamic and inhibitory properties

A basic trypsin-subtilisin inhibitor has been isolated from the egg white of marine turtle (Caretta caretta Linn.) and purified to homogeneity by gel filtration followed by ion-exchange chromatography. It has a single polypeptide chain of 117 amino acid residues, having a molecular weight of 13,600. It lacks methionine and tryptophan. Its isoelectric point is atpH 10.0 and the sedimentation coefficient (s_20,w) value of 1.62 S is independent of protein concentration. It has a Stokes radius of 18.8 Å, an intrinsic viscosity of 0.048 dl g^–1 and a diffusion coefficient of 10.17×10^–7 cm² sec^–1. Its fluorescence emission spectrum is similar to that of free tyrosine and the bimolecular quencing rate constant of its tyrosine residues with acrylamide is 3.15×10⁹ M^–1 sec^–1. The inhibitor strongly inhibits both trypsin and subtilisin by forming enzyme-inhibitor complexes at a molar ratio of unity. The nature of inhibition toward both enzymes is not temporary. It has independent binding sites for inhibition of trypsin and subtilisin. Chemical modification with tetranitromethane suggests the presence of three tyrosine residues on the surface of the inhibitor molecule.     

Recent advances in the development of peptide-based inhibitors targeting epigenetic readers of histone lysine acetylation and methylation marks

Inhibitors for epigenetic readers of histone modifications are useful chemical probes to interrogate the functional roles played by their cognate targets in epigenetic regulation and can even serve as drugs for the treatment of diseases associated with the dysregulated targets. However, many epigenetic readers are intractable to small molecules, as the recognition of modified histone peptides commonly involves flat and extended protein surfaces. In contrast, the relatively large sizes and structural complexity of peptides help them achieve tight and specific binding to the target proteins. Increasing efforts have been made to target epigenetic readers using peptide-based inhibitors that can complement small molecules. In this review, we discuss the recent advances in the development of peptide-based inhibitors of lysine acetylation and methylation readers.