Integrated 18F-fluorodeoxyglucose positron emission tomography and computerized tomography in endodermal sinus tumor.

Application of an in-line positron emission tomography and computerized tomography (PET-CT) in endodermal sinus tumor (EST) is described in this study. CASE 1: A young female with massive ascites postovarian mass resection had elevated alpha-fetoprotein (AFP) serum levels. Following a positive PET-CT study with increased (18)F-fluorodeoxyglucose (FDG) uptake, a CT-guided core biopsy of a peritoneal mass was performed. EST was diagnosed histologically. The patient was disease free after chemotherapy. Follow-up PET-CT was negative in keeping with no viable tumor tissue. CASE 2: A large pelvic mass diagnosed histologically as primarily EST was removed in a teenage patient with elevated AFP levels. PET-CT showed diffuse abdominal spread of FDG uptake, suggesting extensive peritoneal seeding. The patient was disease free after chemotherapy. Follow-up PET-CT was negative. EST is an FDG-avid tumor. PET-CT delineated the prechemotherapy tumor extent adequately ruled out the presence of residual tumor after a successful treatment.

Spectroscopic studies of inhibited alcohol dehydrogenase from Thermoanaerobacter brockii: proposed structure for the catalytic intermediate state.

Thermoanaerobacter brockii alcohol dehydrogenase (TbADH) catalyzes the reversible oxidation of secondary alcohols to the corresponding ketones using NADP(+) as the cofactor. The active site of the enzyme contains a zinc ion that is tetrahedrally coordinated by four protein residues. The enzymatic reaction leads to the formation of a ternary enzyme-cofactor-substrate complex; and catalytic hydride ion transfer is believed to take place directly between the substrate and cofactor at the ternary complex. Although crystallographic data of TbADH and other alcohol dehydrogenases as well as their complexes are available, their mode of action remains to be determined. It is firmly established that the zinc ion is essential for catalysis. However, there is no clear agreement about the coordination environment of the metal ion and the competent reaction intermediates during catalysis. We used a combination of X-ray absorption, circular dichroism (CD), and fluorescence spectroscopy, together with structural analysis and modeling studies, to investigate the ternary complexes of TbADH that are bound to a transition-state analogue inhibitor. Our structural and spectroscopic studies indicated that the coordination sphere of the catalytic zinc site in TbADH undergoes conformational changes when it binds the inhibitor and forms a pentacoordinated complex at the zinc ion. These studies provide the first active site structure of bacterial ADH bound to a substrate analogue. Here, we suggest the active site structure of the central intermediate complex and, more specifically, propose the substrate-binding site in TbADH.

Development of a highly sensitive quantitative competitive PCR assay for the detection of murine cytomegalovirus DNA.

Viral persistence and molecular latency are characteristic of infection by the human cytomegalovirus (HCMV). Using the murine cytomegalovirus (MCMV) as a model for human infection, a quantitative-competitive polymerase chain reaction (QC-PCR) assay was developed to detect and quantify MCMV-DNA in the salivary glands of infected mice. The QC-PCR detected high numbers of MCMV DNA copies in the absence of infectious virus. By comparing the DNA content and the results obtained from a standard semiquantitative plaque assay, it is concluded that 1 plaque-forming unit (pfu) is the equivalent of approximately 1500 viral genomes. By day 42-post infection (pi) 4x10(3) copies of DNA/1 mg tissue were sufficient to reactivate infectious virions after cyclophosphamide immunosupression. By day 90 pi, however, when the DNA load was decreased to <1.2x10(2), reactivation was not observed. These results indicate that viral reactivation will occur when the number of infectious DNA copies is equivalent about 2-3 pfu. This quantitative test may therefore help to detect CMV and the risk of reactivation in immunosupressed patients.

Effective preventive central nervous system therapy with extended triple intrathecal therapy and the modified ALL-BFM 86 chemotherapy program in an enlarged non-high risk group of children and adolescents with non-B-cell acute lymphoblastic leukemia: the Israel National Study report.

BACKGROUND: Preventive cranial radiotherapy (CRT) in childhood acute lymphoblastic leukemia (ALL), although effective, may be associated with neurologic sequelae and second malignancies. Attempts to replace CRT with intensified intrathecal therapy (IT) have shown promise in lower risk subgroups. In the Israel National Study (INS) 89 trial, the efficacy of extended triple IT (TIT) alone for cranial prophylaxis in an enlarged non-high risk group (Non-HRG) was assessed in the context of a modified ALL-Berlin-Frankfurt-Munster (BFM) systemic chemotherapy program. METHODS: Non-HRG patients included the standard-risk group (SRG) and the risk group (RG), as defined in ALL-BFM 86. In the INS 89 protocol, all Non-HRG patients were treated with extended TIT x 18 times and systemic therapy based on the BFM 86 protocol, with the addition of etoposide x 4 times. The HRG patients, classified according to BFM 86 criteria, were treated with the BFM 90 HRG protocol including CRT. RESULTS: A total of 250 patients were enrolled. At a median follow-up of 58 months (range, 2-8.5 years), the overall 5-year event free survival (EFS) was 73.5% +/- 3% (standard error ¿SE), and the cumulative central nervous system (CNS) recurrence rate was 4.3% +/- 1.4% (SE) (isolated, 2.3%; combined, 2%). Of the 220 eligible children, 189 (86%) were in the Non-HRG group, and their 5-year EFS was 77.8% +/- 3% (SE). The cumulative CNS recurrence rate for patients without CNS disease at presentation was 3.1% +/- 1% (SE) (isolated, 1.7%; combined, 1.4%). Within the risk subsets defined by the BFM 86 of the Non-HRG, the 5-year EFS rates of the RG (148 patients) and the SRG (41 patients) were 74.8% +/- 4% (SE) and 89.5% +/- 5% (SE), respectively, and the rates of CNS recurrence (isolated and combined) were 4% and 0%, respectively. For the HRG (31 patients), the 5-year EFS and CNS recurrence rates were 47.9% +/- 9% (SE) and 8. 5% +/- 6% (SE), respectively. CONCLUSIONS: Early extended TIT therapy in the context of modified BFM 86 systemic chemotherapy was found to provide adequate CNS protection and systemic leukemia control in patients with non-high risk ALL. However, no benefit for etoposide could be proven in this study.

Immunopotentiating and immunotherapeutic effects of thymic hormones and factors with special emphasis on thymic humoral factor THF-gamma2.

The essential role played by the thymus in the development of the immune response was well documented in many publications. These findings prompted a long series of studies devised to define the factors produced and secreted by thymus cells, which are involved in the development and nature of immunological responsiveness. First experiments done with crude thymus extracts were followed by isolation of purified products and finally by chemical characterization and synthesis of immunologically active thymus-derived peptides. In this article we review the various thymic hormones and factors described, that is, thymosin fractions 5, the thymosins, prothymosin alpha, thymulin (FTS-Zn), thymopoietin, thymostimulin (TP-1), Thymic humoral factor (THF), and THF-gamma2. Studies demonstrating the activity of the various thymic factors in increasing the immunocompetence potential in both in vitro and in vivo conditions are discussed. The immunostimulatory potential of thymic factors was also investigated in experimental models where beneficial therapeutic effects were sought in a situation of immunological malfunction. The last part of the review is dedicated to clinical trials with thymic factors that revealed improvement in the immunocompetence potential in cases of immunodeficiencies, viral infections, and cancer and its correlation with therapeutic effectiveness. It seems that more research is required in order to better define conditions for the use of thymic factors in immunotherapy.

Oligomeric integrity--the structural key to thermal stability in bacterial alcohol dehydrogenases.

Principles of protein thermostability have been studied by comparing structures of thermostable proteins with mesophilic counterparts that have a high degree of sequence identity. Two tetrameric NADP(H)-dependent alcohol dehydrogenases, one from Clostridium beijerinckii (CBADH) and the other from Thermoanaerobacter brockii (TBADH), having exceptionally high (75%) sequence identity, differ by 30 degrees in their melting temperatures. The crystal structures of CBADH and TBADH in their holo-enzyme form have been determined at a resolution of 2.05 and 2.5 A, respectively. Comparison of these two very similar structures (RMS difference in Calpha = 0.8 A) revealed several features that can account for the higher thermal stability of TBADH. These include additional ion pairs, "charged-neutral" hydrogen bonds, and prolines as well as improved stability of alpha-helices and tighter molecular packing. However, a deeper structural insight, based on the location of stabilizing elements, suggests that enhanced thermal stability of TBADH is due mainly to the strategic placement of structural determinants at positions that strengthen the interface between its subunits. This is also supported by mutational analysis of structural elements at critical locations. Thus, it is the reinforcement of the quaternary structure that is most likely to be a primary factor in preserving enzymatic activity of this oligomeric bacterial ADH at elevated temperatures.

THF-gamma 2-mediated reduction of pulmonary metastases and augmentation of immunocompetence in C57BL/6 mice bearing B16-melanoma.

Immunotherapy with the immunomodulating thymic humoral factor-gamma 2 (THF-gamma 2) octapeptide, combined with 1,3-bis(2-chloroethyl)-1-nitrosourea (BCNU) chemotherapy, will be used for enhancing host immune response to arrest pulmonary metastases of a B16-F10.9 melanoma tumor. In this experimental model of pulmonary metastasis, the highly metastatic B16-F10.9 melanoma tumor cells (2 x 10(5)) were inoculated into the footpad of mice to form a primary tumor. The tumor-bearing leg was surgically removed on reaching the size of 5.5 mm, which resulted in the appearance of metastases in the lungs of the animals. After tumor excision, mice were treated intraperitoneally with a single dose of BCNU (20 or 35 mg/kg) followed by a series of intraperitoneal THF-gamma 2 injections (1 microgram/0.5 ml/injection). Relative to untreated mice and those receiving chemotherapy alone, the antitumor action of the combined THF-gamma 2 chemoimmunotherapy protocol was significantly augmented according to the following in vivo parameters: (a) decreased postsurgical spontaneous metastatic burden; (b) prolonged survival time; (c) increased resistance to tumor cell challenge; and (d) massive infiltration of lymphocytes, polymorphonuclear cells, and macrophages in the lung tissue. The THF-gamma 2 immunotherapy also prevented a decrease in lymphocyte reactivity, otherwise induced by the tumor/BCNU chemotherapy. THF-gamma 2 immunotherapy resulted in restoration of the response to Lipopolysaccharide mitogenic stimulation and the allogeneic response. Our data suggest that postoperative THF-gamma 2 immunotherapy could be a valuable adjunct to anticancer chemotherapy as a treatment for metastatic arrest of melanoma tumor.

Shwachman--Diamond syndrome associated with autoimmune phenomena.

A 2-year-old boy was evaluated for failure to thrive, hypotonia and developmental delay. The child exhibited all the criteria of Shwachman-Diamond syndrome, i.e., short stature, metaphyseal dysostosis, pancreatic insufficiency and neutropenia. Liver function tests were abnormal. Marked edema together with pericardial effusion appeared during the period of follow-up. Hypothyroidism attributed to autoimmune thyroiditis was diagnosed, and other autoantibodies were detected as well. We suggest that an autoimmune baseline profile and follow-up should be part of the work-up and management of patients with Shwachman-Diamond syndrome. Moreover, the finding of autoantibodies might offer a new insight towards understanding the pathogenesis of this condition.

NADP-dependent bacterial alcohol dehydrogenases: crystal structure, cofactor-binding and cofactor specificity of the ADHs of Clostridium beijerinckii and Thermoanaerobacter brockii.

We have determined the X-ray structures of the NADP(H)-dependent alcohol dehydrogenase of Clostridiim beijerinckii (CBADH) in the apo and holo-enzyme forms at 2.15 A and 2.05 A resolution, respectively, and of the holo-alcohol dehydrogenase of Thermoanaerobacter brockii (TBADH) at 2.5 A. These are the first structures of prokaryotic alcohol dehydrogenase to be determined as well as that of the first NADP(H)-dependent alcohol dehydrogenase. CBADH and TBADH 75% have sequence identity and very similar three-dimensional structures. Both are tetramers of 222 symmetry. The monomers are composed of two domains: a cofactor-binding domain and a catalytic domain. These are separated by a deep cleft at the bottom of which a single zinc atom is bound in the catalytic site. The tetramers are composed of two dimers, each structurally homologous to the dimer of alcohol dehydrogenases of vertebrates. The dimers form tetramers by means of contacts between surfaces opposite the interdomain cleft thus leaving it accessible from the surface of the tetramer. The tetramer encloses a large internal cavity with a positive surface potential. A molecule of NADP(H) binds in the interdomain cleft to the cofactor-binding domain of each monomer. The specificity of the two bacterial alcohol dehydrogenases toward NADP(H) is determined by residues Gly198, Ser199, Arg200 and Tyr218, with the latter three making hydrogen bonds with the 2'-phosphate oxygen atoms of the cofactor. Upon NADP(H) binding to CBADH, Tyr218 undergoes a rotation of approximately 120 degrees about chi1 which facilitates stacking interactions with the adenine moiety and hydrogen bonding with one of the phosphate oxygen atoms. In apo-CBADH the catalytic zinc is tetracoordinated by side-chains of residues Cys37, His59, Asp150 and Glu60; in holo-CBADH, Glu60 is retracted from zinc in three of the four monomers whereas in holo-TBADH, Glu60 does not participate in Zn coordination. In both holo-enzymes, but not in the apo-enzyme, residues Ser39 and Ser113 are in the second coordination sphere of the catalytic zinc. The carboxyl group of Asp150 is oriented with respect to the active carbon of NADP(H) so as to form hydrogen bonds with both pro-S and pro-R hydrogen atoms.

Enhanced thermal stability of Clostridium beijerinckii alcohol dehydrogenase after strategic substitution of amino acid residues with prolines from the homologous thermophilic Thermoanaerobacter brockii alcohol dehydrogenase.

A comparison of the three-dimensional structures of the closely related mesophilic Clostridium beijerinckii alcohol dehydrogenase (CBADH) and the hyperthermophilic Thermoanaerobacter brockii alcohol dehydrogenase (TBADH) suggested that extra proline residues in TBADH located in strategically important positions might contribute to the extreme thermal stability of TBADH. We used site-directed mutagenesis to replace eight complementary residue positions in CBADH, one residue at a time, with proline. All eight single-proline mutants and a double-proline mutant of CBADH were enzymatically active. The critical sites for increasing thermostability parameters in CBADH were Leu-316 and Ser-24, and to a lesser degree, Ala-347. Substituting proline for His-222, Leu-275, and Thr-149, however, reduced thermal stability parameters. Our results show that the thermal stability of the mesophilic CBADH can be moderately enhanced by substituting proline at strategic positions analogous to nonconserved prolines in the homologous thermophilic TBADH. The proline residues that appear to be crucial for the increased thermal stability of CBADH are located at a beta-turn and a terminating external loop in the polypeptide chain. Positioning proline at the N-caps of alpha-helices in CBADH led to adverse effects on thermostability, whereas single-proline mutations in other positions in the polypeptide had varying effects on thermal parameters. The finding presented here support the idea that at least two of the eight extra prolines in TBADH contribute to its thermal stability.

Tuftsin-THF-gamma 2 chimeric peptides: potential novel immunomodulators.

Synthesis of two chimeric peptides composed of tuftsin and thymic humoral factor-gamma 2 (THF-gamma 2) conjugates was accomplished. Our goal was the generation of novel immunomodulators. Initially, we demonstrate an IL-6 inducing activity of the phagocytic cells stimulant, tuftsin, on murine macrophages. This activity was documented only in the presence of antigen, either KLH or lysozyme. The augmentation was dose dependent, with optimal activity at a concentration of 200 and 20 nM, respectively. The chimeric peptides, either H2N-tuftsin-THF-gamma 2-OH or H2N-THF-gamma 2-tuftsin-OH, were also evaluated in the IL-6 system in the presence of the more potent antigen, KLH. The IL-6 inducing effect was maintained, although maximal activity appeared only at a concentration an order of magnitude greater than that of tuftsin. The chimeric peptides were further tested in an assay evaluating enhancement in murine bone marrow myeloid colony formation, a system in which THF-gamma 2, a T cell stimulant, has an established beneficial effect. The compounds were found to be inactive at the 25-200 ng/ml (14-112 nM) concentration range evaluated. Finally, the chimeric peptides were tested in a combined macrophages-T cells assay, i.e. antigen presentation, in which H2N-tuftsin-THF-gamma 2-OH was found to be more active than either parent peptide, thus representing a possible therapeutic agent.

Molecular cloning, nucleotide sequencing, and expression of genes encoding alcohol dehydrogenases from the thermophile Thermoanaerobacter brockii and the mesophile Clostridium beijerinckii.

Proteins play a pivotal role in thermophily. Comparing the molecular properties of homologous proteins from thermophilic and mesophilic bacteria is important for understanding the mechanisms of microbial adaptation to extreme environments. The thermophile Thermoanaerobacter (Thermoanaerobium) brockii and the mesophile Clostridium beijerinckii contain an NADP(H)-linked, zinc-containing secondary alcohol dehydrogenase (TBADH and CBADH) showing a similarly broad substrate range. The structural genes encoding the TBADH and the CBADH were cloned, sequenced, and highly expressed in Escherichia coli. The coding sequences of the TB adh and the CB adh genes are, respectively, 1056 and 1053 nucleotides long. The TB adh gene encoded an amino acid sequence identical to that of the purified TBADH. Alignment of the deduced amino acid sequences of the TB and CB adh genes showed a 76% identity and a 86% similarity, and the two genes had a similar preference for codons with A or T in the third position. Multiple sequence alignment of ADHs from different sources revealed that two (Cys-46 and His-67) of the three ligands for the catalytic Zn atom of the horse-liver ADH are preserved in TBADH and CBADH. Both the TBADH and CBADH were homotetramers. The substrate specificities and thermostabilities of the TBADH and CBADH expressed inE. coli were identical to those of the enzymes isolated from T. brockii and C. beijerinckii, respectively. A comparison of the amino acid composition of the two ADHs suggests that the presence of eight additional proline residues in TBADH than in CBADH and the exchange of hydrophilic and large hydrophobic residues in CBADH for the small hydrophobic amino acids Pro, Ala, and Val in TBADH might contribute to the higher thermostability of the T. brockii enzyme.

Cysteine reactivity in Thermoanaerobacter brockii alcohol dehydrogenase.

The free cysteine residues in the extremely thermophilic Thermoanaerobacter brockii alcohol dehydrogenase (TBADH) were characterized using selective chemical modification with the stable nitroxyl biradical bis(1-oxy-2,2,5,5-tetramethyl-3-imidazoline-4-yl)disulfide, via a thiol-disulfide exchange reaction and with 2[14C]iodoacetic acid, via S-alkylation. The respective reactions were monitored by electron paramagenetic resonance (EPR) and by the incorporation of the radioactive label. In native TBADH, the rapid modification of one cysteine residue per subunit by the biradical and the concomitant loss of catalytic activity was reversed by DTT. NADP protected the enzyme from both modification and inactivation by the biradical. RPLC fingerprint analysis of reduced and S-carboxymethylated lysyl peptides from the radioactive alkylated enzyme identified Cys 203 as the readily modified residue. A second cysteine residue was rapidly modified with both modification reagents when the catalytic zinc was removed from the enzyme by o-phenanthroline. This cysteine residue, which could serve as a putative ligand to the active-site zinc atom, was identified as Cys 37 in RPLC. The EPR data suggested a distance of < or 10 A between Cys 37 and Cys 203. Although Cys 283 and Cys 295 were buried within the protein core and were not accessible for chemical modification, the two residues were oxidized to cystine when TBADH was heated at 75 degrees C, forming a disulfide bridge that was not present in the native enzyme, without affecting either enzymatic activity or thermal stability. The status of these cysteine residues was verified by site directed mutagenesis.

Thermoanaerobacter brockii alcohol dehydrogenase: characterization of the active site metal and its ligand amino acids.

The active-site metal ion and the associated ligand amino acids in the NADP-linked, tetrameric enzyme Thermoanaerobacter brockii alcohol dehydrogenase (TBADH) were characterized by atomic absorption spectroscopy analysis and site-directed mutagenesis. Our preliminary results indicating the presence of a catalytic zinc and the absence of a structural metal ion in TBADH (Peretz & Burstein. 1989. Biochemistry 28:6549-6555) were verified. To determine the role of the putative active-site zinc, we investigated whether exchanging the zinc for other metal ions would affect the structural and/or the enzymatic properties of the enzyme. Substituting various metal ions for zinc either enhanced or diminished enzymatic activity, as follows: Mn2+ (240%); Co2+ (130%); Cd2+ (20%); Cu2+ or V3+ (< 5%). Site-directed mutagenesis to replace any one of the three putative zinc ligands of TBADH, Cys 37, His 59, or Asp 150, with the non-chelating residue, alanine, abolished not only the metal-binding capacity of the enzyme but also its catalytic activity, without affecting the overall secondary structure of the enzyme. Replacing the three putative catalytic zinc ligands of TBADH with the respective chelating residues serine, glutamine, or cysteine damaged the zinc-binding capacity of the mutated enzyme and resulted in a loss of catalytic activity that was partially restored by adding excess zinc to the reaction. The results imply that the zinc atom in TBADH is catalytic rather than structural and verify the involvement of Cys 37, His 59, and Asp 150 of TBADH in zinc coordination.

Treatment of murine cytomegalovirus salivary-gland infection by combined therapy with ganciclovir and thymic humoral factor gamma 2.

An optimal therapeutic regimen against primary CMV salivary-gland infection has not yet been developed. We used a murine CMV (MCMV) model system to assess the ability of combined thymic humoral factor THF-gamma 2 immunotherapy and ganciclovir (GCV) antiviral chemotherapy to eliminate detectable viral DNA from salivary glands of infected animals. Mice in different experimental groups were inoculated intraperitoneally with MCMV, treated, and then sacrificed either 2 weeks or 3 months later. To amplify and detect MCMV DNA in infected salivary-gland tissue, we developed a sensitive polymerase chain reaction (PCR) using a glycoprotein B gene primer pair that amplifies a 356 bp segment. During the acute phase of the infection, the detection of high titers of infectious virus in the salivary glands correlated with a strong PCR amplification signal. Although active virions could not be recovered from untreated animals 3 months after viral inoculation, the PCR assay detected a latent MCMV genome. Treatment with either GCV alone or THF-gamma 2 alone had little or no effect on the presence of MCMV DNA. By contrast, combined treatment with THF-gamma 2 and GCV significantly reduced the amount of salivary-gland MCMV DNA to below the limit of PCR detection. The results presented here, and experimental data from previous MCMV research in our laboratories, imply that elimination of the virus from the salivary glands could be due in part to THF-gamma 2 restoration of the various MCMV-suppressed, cell mediated immune-responses. Combining THF-gamma 2 immunotherapy and GCV antiviral chemotherapy may be an important step toward an effective therapeutic regimen that has the potential to prevent the establishment of viral latency ensuing from primary MCMV salivary-gland infection.

Inhibition of murine Lewis lung carcinoma metastases by combined chemotherapy and intranasal THF-gamma 2 immunotherapy.

Previous research in our laboratories has shown that the immunoregulatory octapeptide, THF-gamma 2, potentiates the efficacy of anticancer chemotherapy in experimental animal models of local plasmacytoma and repairs drug-induced defects in immunocompetence. The highly metastatic, murine D122 lung carcinoma model has been shown to be useful for evaluating the efficacy of experimental antimetastatic therapeutic modalities. The goal of the present study was to determine whether intranasal thymic humoral factor-gamma 2 (THF-gamma 2) immunotherapy, after a single dose of chemotherapy, could inhibit the development of lung metastases, restore immunocompetence, and increase survival in syngeneic C57BL/6 mice bearing highly metastatic Lewis lung carcinoma (D122) solid footpad tumors. Relative to untreated mice and those receiving chemotherapy alone, mice receiving combined chemoimmunotherapy showed the following significant differences: (a) decreased lung metastatic load as assessed by lung weight, (b) prolonged survival time, (c) massive infiltration of lymphoid cells in the lungs, and (d) restoration of impaired immune parameters to normal values in melphalan-treated mice. THF-gamma 2 prevented tumor emboli from colonizing the target tissue, probably by inducing expansion of the lymphoid cell compartment. When used as an adjunct to anticancer chemotherapy, intranasal THF-gamma 2 immunotherapy is a simple and safe treatment modality that seems to be promising for inhibiting lung metastases.

Crystalline alcohol dehydrogenases from the mesophilic bacterium Clostridium beijerinckii and the thermophilic bacterium Thermoanaerobium brockii: preparation, characterization and molecular symmetry.

Two tetrameric NADP(+)-dependent bacterial secondary alcohol dehydrogenases have been crystallized in the apo- and the holo-enzyme forms. Crystals of the holo-enzyme from the mesophilic Clostridium beijerinckii (NCBAD) belong to space group P2(1)2(1)2(1) with unit-cell dimensions a = 90.5, b = 127.9, c = 151.4 A. Crystals of the apo-enzyme (CBAD) belong to the same space group with unit-cell dimensions a = 80.4, b = 102.3, c = 193.5 A. Crystals of the holo-enzyme from the thermophilic Thermoanaerobium brockii (NTBAD) belong to space group P6(1(5)) (a = b = 80.6, c = 400.7 A). Crystals of the apo-form of TBAD (point mutant GI98D) belong to space group P2(1) with cell dimensions a = 123.0, b = 84.8, c = 160.4 A beta = 99.5 degrees. Crystals of CBAD, NCBAD and NTBAD contain one tetramer per asymmetric unit. They diffract to 2.0 A resolution at liquid nitrogen temperature. Crystals of TBAD(GI98D) have two tetramers per asymmetric unit and diffract to 2.7 A at 276 K. Self-rotation analysis shows that both enzymes are tetramers of 222 symmetry.

Thymic humoral factor-gamma 2 (THF-gamma 2) immunotherapy reduces the metastatic load and restores immunocompetence in 3LL tumor-bearing mice receiving anticancer chemotherapy.

In mice bearing immunogenic tumors, adding thymic humoral factor-gamma 2 (THF-gamma 2)1 immunotherapy as an adjunct to anticancer chemotherapeutic regimens not only potentiates the antitumor activity of each drug but also repairs tumor/chemotherapy-induced damage to T-cell populations and functions. The Lewis lung carcinoma (3LL) is a weakly immunogenic, highly metastatic tumor in C57BL/6 mice. To investigate whether the immunoregulatory octapeptide is also effective against a tumor that does not elicit an antitumor immune response, we assessed the effect of combination THF-gamma 2 immunotherapy and chemotherapy in 3LL-bearing mice. The results indicate that THF-gamma 2 combined with either Melphalan or 5-Fluorouracil was more effective in reducing metastatic load than either chemotherapeutic drug alone and was characterized by massive infiltration of lymphatic cells. The combined chemoimmunotherapy treatment also prolonged the survival time in all treated animals and repaired T-cell defects and impaired in vitro cellular immune response parameters, induced either by the tumor or by chemotherapy. THF-gamma 2 immunotherapy reversed the decrease in the number of bone-marrow myeloid colonies (GM-CFU) induced by chemotherapy treatment of tumor-bearing mice, supporting the hypothesis that THF-gamma 2 directly stimulates the proliferation of myeloid stem cells. The overall results imply, that when administered as an adjunct to chemotherapy, THF-gamma 2 immunotherapy is equally effective against immunogenic and nonimmunogenic tumors.