Brian R. Francis

Myotoxin II from Bothrops asper (Terciopelo) venom is a lysine-49 phospholipase A2.

A basic, dimeric myotoxic protein, myotoxin II, purified from Bothrops asper venom has a similar molecular weight and is immunologically cross-reactive with antibodies raised to previously isolated B. asper phospholipases A2, except that it shows only 0.1% of the phospholipase activity against L-alpha-phosphatidylcholine in the presence of Triton X-100. Its 121 amino acid sequence, determined by automated Edman degradation, clearly identifies it as a Lys-49 phospholipase A2. Key amino acid differences between myotoxin II and phospholipase active proteins in the Ca2(+)-binding loop region, include Lys for Asp-49, Asn for Tyr-28, and Leu for Gly-32. The latter substitution has not previously been seen in Lys-49 proteins. Other substitutions near the amino terminus (Leu for Phe-5 and Gln for several different amino acids at position 11) may prove useful for identifying other Lys-49 proteins in viperid and crotalid venoms. Myotoxin II shows greater sequence identity with other Lys-49 proteins from different snake venoms (Agkistrodon piscivorus piscivorus, Bothrops atrox, and Trimeresurus flavoviridis) than with another phospholipase A2 active Asp-49 molecule isolated from the same B. asper venom. This work demonstrates that phospholipase activity per se, is not required in phospholipase molecules for either myotoxicity or edema inducing activities.

Bovine granulocyte chemotactic protein-2 is secreted by the endometrium in response to interferon-tau (IFN-τ).

Interferon-tau (IFN-τ) is secreted by the bovine conceptus and may regulate synthesis of uterine endometrial cytokines to provide an environment that is conducive to embryo development and implantation. Interferon-τ stimulates secretion of an 8-kDa uterine protein (P8) in the cow. P8 was purified, digested to yield internal peptides, and partially sequenced to determine identity. Two internal peptides had 100% (13-mer) and 92% (12-mer) amino acid sequence identity with bovine granulocyte chemotactic protein-2 (bGCP-2). Bovine GCP-2 is an α-chemokine that acts primarily as a potent chemoattractant for granulocyte cells of the immune system. A peptide was synthesized based on a region of bGCP-2 that overlapped with a P8 peptide amino acid sequence, coupled to keyhole limpet hemocyanin, and used to generate high titer polyclonal antiserum in sheep. Western blots revealed that bGCP-2 was not released by endometrium from day 14 nonpregnant cows, but was released in response to 25 nM IFN-τ (p<0.05). Uterine GCP-2 exhibited high affinity to heparin agarose, a characteristic shared by all α chemokines. This is the first report describing presence of GCP-2 in the uterine endometrium and regulation by IFN-τ. The regulation of bGCP-2 by IFN-τ may have important implications for cytokine networking in the uterus during pregnancy. Also, the regulation of inflammation and angiogenesis by bGCP-2 working together with other cytokines may be integral to establishing early pregnancy and implantation in the cow.

Further characterization of BT-R1, the cadherin-like receptor for Cry1Ab toxin in tobacco hornworm (Manduca sexta) Midguts

BT-R1, the Manduca sexta midgut receptor for the crystal toxin Cry1Ab produced by Bacillus thuringiensis ssp. berliner, was partly purified by gel filtration from M. sexta brush border membrane vesicles in the presence of the detergent CHAPS. Fractions containing BT-R1 were tested for their stability against degradation as indicated by retention of Cry1Ab binding on ligand blots. At 4 degrees C and pH 7.4 in the presence of Ca2+, BT-R1 was stable for up to 48 h but a 65% loss of binding was observed after 100 h. Under the same conditions, no loss of binding was observed in the presence of EGTA after 100 h. Cry1Ab binding decreased markedly as pH increased from 6 to 10 for incubations of 24 h at 4 degrees C. Increasing the temperature of incubation from 4 to 37 degrees C also decreased Cry1Ab binding. Neither metal ions nor free sulfhydryl groups are involved in Cry1Ab binding to BT-R1. A trypsin-like, metal-ion-dependent proteolytic activity co-eluted with BT-R1 during gel filtration. This endoproteolytic activity was unaltered by the addition of Cry1Ab. BT-R1 did not co-elute with peaks of aminopeptidase, alkaline phosphatase, alpha-glucosidase, beta-glucosidase and beta-galactosidase activities. When BT-R1 in the gel filtration fraction was further purified on a Mono Q anion exchange column, partial separation of the trypsin-like activity from BT-R1 was observed. BT-R1 could be removed from the appropriate Mono Q fraction by immunoprecipitation with only a slight decrease in this activity. These results demonstrate that there is no copurification of BT-R1 and these enzymes and that BT-R1 is unlikely to form complexes with them. Binding of Cry1Aa and Cry1Ac to BT-R1 in gel filtration fractions is similar to that of Cry1Ab, indicating that BT-R1 may be the high-affinity receptor for the Cry1A toxins. Binding of Cry1Ab to a 120 kDa protein has not been observed in this study.

Influence of ionizing radiation on crotoxin: Biochemical and immunological aspects

Irradiation of crotoxin and its subunits with 2000 Gy of gamma-rays from 60Co source leads to aggregation and generation of lower mol. wt breakdown products. Aggregates separated by gel filtration retain at least part of their higher-ordered structure, based on their reactivity with monoclonal antibodies known to react with conformational epitopes in native crotoxin. These same aggregates can serve as antigens to raise antisera that cross-react and neutralize crotoxin. Compared with native crotoxin, aggregates appear less myotoxic, are largely devoid of phospholipase activity, and are virtually non-toxic in mice. These results indicate that irradiation of toxic proteins can promote significant detoxification, but still retain many of the original antigenic and immunological properties of native crotoxin.

Toxins isolated from the venom of the Brazilian coral snake (Micrurus frontalis frontalis) include hemorrhagic type phospholipases A2 and postsynaptic neurotoxins

Toxins isolated from the venom of the Brazilian coral snake (Micrurus frontalis frontalis) include hemorrhagic type phospholipases A2 and postsynaptic neurotoxins. Toxicon 35, 1193-1203, 1997.-Two sets of proteins have been purified from the venom of the Brazilian coral snake, Micrurus frontalis frontalis. One set has mol. wts, as shown by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), in the 8000-13,000 range and includes some proteins which are toxic to mice and others which are not. These proteins appear to be isoforms of postsynaptic toxins. The other set shows phospholipase A2 (PLA2) activity and the toxic members of this set promote hemorrhage in mice in a manner closely resembling that produced by PLA2s isolated from the venom of the Australian tiger snake (Notechis scutatus scutatus). These PLA2s migrate on SDS-PAGE with apparent mol. wts in the 18,000-22,000 range which is characteristic of PLA2s that have an alpha-helix D similar to pancreatic PLA2s. Elapid venom PLA2s of the type which typically migrate on SDS-PAGE with mol. wts in the 13,000-16,000 range and do not have alpha-helix D have not been detected in M. f. frontalis venom.

Isolation and Sequence of an Interferon-τ-Inducible, Pregnancy- and Bovine Interferon-Stimulated Gene Product 15 (ISG15)-Specific, Bovine Ubiquitin-Activating E1-Like (UBE1L) Enzyme

Abstract Bovine (bov) interferon-stimulated gene product 15 (ISG15) is produced in the endometrium in response to conceptus-secreted interferon (IFN)-τ. ISG15 conjugates to endometrial proteins through an enzymatic pathway that is similar to ubiquitinylation. Ubiquitin-activating enzyme 1-like protein (UBE1L) initiates enzymatic conjugation by forming a thioester bond with ISG15, thus preparing it for transfer to the next series of enzymes. The bovUBE1L has not been described. We hypothesized that bovUBE1L was induced by pregnancy and IFN-τ in the endometrium. A 110-kDa protein was purified from bovine endometrial (BEND) cells based on affinity with recombinant (r) glutathione S-transferase (GST)-ISG15. This protein was digested in gel with trypsin. Seven peptides were purified using HPLC, sequenced using liquid chromatography-mass spectroscopy-mass spectroscopy and found to share 43–100% identity with human UBE1L. The full-length bovUBE1L cDNA was isolated from a BEND cell cDNA library, sequenced, and found to share 83% identity with human UBE1L cDNA. Northern blot revealed two mRNAs that were detected in greater (P < 0.05) concentrations in endometrium from Day 17–21 pregnant versus nonpregnant cows. Western blots using antihuman UBE1L antibody revealed a similar pattern of pregnancy-associated expression of UBE1L protein in the uterus. The bovUBE1L mRNA was localized, using in situ hybridization, primarily to glandular and luminal epithelium, with more diffuse localization to stroma of the endometrium from pregnant cows. Because bovUBE1L was purified through its interaction with rGST-ISG15 and shares significant amino acid and cDNA sequence identity with human UBE1L, it is concluded that it mediates conjugation of ISG15 to uterine proteins in response to the developing and attaching conceptus.

Inhibition of metalloproteinases in Bothrops asper venom by endogenous peptides.

Bothrops asper venom contains a variety of degradative enzymes, including metal-ion dependent proteinases as well as low molecular weight peptides. Two of these peptides, pyroglutamate-glutamine-tryptophan (pEQW) and pyroglutamate-asparagine-tryptophan are present in crude venom at concentrations of about 4.5 and 1 mM, respectively. Proteinase fractions from B. asper are inhibited from digesting oxidized insulin B-chain in vitro by both of these tripeptides with an IC50 for pEQW of approximately 0.3 mM. Digestion of purified myotoxin MIII from B. asper venom is also inhibited in vitro by pEQW, suggesting that similar inhibition of proteinase activities probably occurs in the venom gland. Inhibitory peptides present in venom allow snakes to be protected from their own toxic proteinases and inhibit hydrolysis of venom proteins during storage in the venom gland. Upon dilution, such as when venom is injected into prey, peptide inhibitors dissociate from the proteinase and allow their activation. A simple procedure for isolation of these inhibitory peptides is described.

New toxins from the venom of the common tiger snake (Notechis scutatus scutatus)

Scutoxin A and B represent two isoforms of a new toxic protein from the venom of the Australian tiger snake, Notechis scutatus scutatus. Both isoforms, of apparent mol. wt 13,000, are less basic than either notexin or notechis II-5. They both have similar i.v. LD50-values in mice of ca 0.006 micrograms/g, and phospholipase activities of about 136 mumoles of fatty acid released/min/mg at 37 degrees C when acting on phosphatidylcholine in the presence of Triton X-100. Toxicities of the scutoxins are the same as notexin and about seven times more potent than notechis II-5. ELISAs and western blot analyses indicate that the new toxins are immunologically similar to notexin and notechis II-5, with phospholipase activities falling between these latter two proteins. When crude venom is initially passed over a gel filtration column, each scutoxin isoform co-elutes in a different fraction with notexin. Gel filtration experiments using purified samples of notexin and scutoxin have failed to demonstrate any evidence for the formation of higher mol. wt protein complexes. Peptide mapping suggests the presence of five glutamate residues in one of the protein isoforms. These findings, together with the high toxicity and active phospholipase levels, demonstrate that the new proteins are not the previously reported non-toxic and enzymatically inactive notechis II-1. The combination of gel filtration on Sephacryl S-200 and cation-exchange chromatography used to isolate the scutoxins also permits recovery of notexin and notechis II-5 in high purity.

Proteins isolated from the venom of the common tiger snake (Notechis scutatus scutatus) promote hypotension and hemorrhage

Notechis scutatus scutatus venom contains several toxic acidic proteins called HTa-i which promote hypotension and hemorrhage in mice. They have apparent mol. wts in the 18,000-21,000 range, i.v. LD50 values between 0.5 and 1.5 micrograms/g, and no detectable phospholipase, arginine esterase, proteolytic or hemolytic activities. A polyclonal antibody raised against HTg binds to other purified proteins, suggesting that they are isoforms of the same protein. Many other elapid crude venoms contain proteins which recognize the polyclonal antibody raised against HTg. Crotalid and viperid crude venoms do not recognize this antibody, although some of their component proteins are known to exhibit hypotensive and hemorrhagic activities. A combination of gel-filtration on Sephacryl S-200, cation-exchange and anion-exchange chromatography allows isolation of the N. s. scutatus proteins in high purity. They are the first hypotension-inducing proteins to be purified from an Australian elapid.

Hsp90 and mitochondrial proteases Yme1 and Yta10/12 participate in ATP synthase assembly in Saccharomyces cerevisiae

Hsc82 and Hsp82, the Hsp90 family proteins of yeast, are both required for fermentative growth at 37°C. Inactivation of either of the mitochondrial AAA proteases, Yme1 or Yta10/12, allows fermentative growth of hsc82∆ or hsp82∆ strains at 37°C. Genetic evidence indicates interaction of Hsc82/Hsp82 with the Yme1 and Yta10/Yta12 complexes in promoting F(1)F(o)-ATPase activity, with Hsc82 specifically required for F(1)-ATPase assembly. A previously reported mutation in Rpt3, one of the six ATPases of the proteasome, suppresses yme1∆ phenotypes and increases transcription of HSC82 but not HSP82. These genetic interactions describe a functional role for Hsp90 proteins in mitochondrial biogenesis.