Toxicity and exposure of an adenovirus containing human interferon alpha-2b following intracystic administration in cynomolgus monkeys.

The safety and toxicokinetics of SCH 721015, an adenovirus encoding the human interferon alpha-2b gene, and Syn3 (SCH 209702), a novel excipient, were assessed in cynomolgus monkeys administered intravesical doses of 2.5 × 10E11 or 1.25 × 10E13 particles SCH 721015 in 25 mg Syn3 or 25 mg Syn3 alone on study days 1 and 91. There was no systemic toxicity. Monkeys dosed with SCH 721015 in Syn3 were positive for SCH 721015-specific DNA in the urine for 2 to 3 days following each dose and had interferon alpha-2b protein in the urine for 1-3 days after a single dose and in fewer animals after a second dose. Intracystic administration was associated with inflammation and focal/multifocal ulceration in the urinary bladder and irritation in the ureters and urethra at necropsy. The physical trauma from catheterization and filling/emptying of the bladder was likely a contributing factor and Syn3 exacerbated the trauma. There was nearly complete resolution of these findings 2 months after the last dose. The trauma to the bladder likely contributed to low, transient systemic exposure to Syn3, SCH 721015 and human interferon protein. The results of this study support the clinical investigation of SCH 721015 in Syn3.

Interferon alpha2b gene delivery using adenoviral vector causes inhibition of tumor growth in xenograft models from a variety of cancers.

A recombinant adenovirus expressing human interferon alpha2b driven by the cytomegalovirus promoter, IACB, was shown to produce and secrete biologically active protein in vitro and in vivo. Intravenous administration of IACB in Buffalo rats resulted in circulating levels of biologically active human interferon at 70,000 international units/mL for up to 15 days. Distribution of interferon protein after IACB administration was different from that seen with the subcutaneous delivery of interferon protein. Higher levels of interferon protein were observed in liver and spleen after IACB delivery compared to protein delivery. The antitumor efficacy of IACB, as measured by suppression of tumor growth, was tested in athymic nude mice bearing established human tumor xenografts from different types of human cancer. Subcutaneous tumors most responsive to the intratumoral administration of IACB ranked as U87MG (glioblastoma) and K562 (chronic myelogenous leukemia), followed by Hep 3B (hepatocellular carcinoma) and LN229 cells (glioblastoma). Intravenous administration of IACB in animals bearing U87MG or Hep 3B xenografts was also effective in suppressing tumor growth, although to a lesser extent than the intratumoral administration. IACB was also tested in a metastatic model in beige/SCID mice generated with H69 (small cell lung carcinoma) cells and was found to prolong survival in tumor-bearing animals. This suggested that interferon gene delivery can be effective in suppressing tumor growth in a wide variety of cells.

Selective expression of nonsecreted interferon by an adenoviral vector confers antiproliferative and antiviral properties and causes reduction of tumor growth in nude mice.

Replication-deficient adenoviruses expressing human interferon-alpha2b (HuIFN-alpha2b) or the hybrid IFN-alpha2alpha1 or those with the secretory signal deleted, whose express is driven by the alpha-fetoprotein (AFP) promoter, were constructed and characterized. Synthesis of IFN protein and secretion or intracellular retention were tested by Western blotting and immunoassay. Expression of IFN by the recombinant adenoviruses was restricted to cells that constitutively express AFP. In these cells, expression of both secreted and nonsecreted recombinant IFN resulted in inhibition of cell proliferation, resistance to viral infection, induction of major histocompatibility complex (MHC) class I expression, increased apoptosis, and activation of an IFN-stimulated response element (ISRE)-containing promoter. Also, the induction of protein kinase R (PKR), increased phosphorylation of Stat1, and accumulation of hypophosphorylated pRb were observed for both the secreted and nonsecreted IFN, suggesting that the nonsecreted IFN may act through a similar pathway. Hep3B cells, an AFP-positive line derived from a patient with hepatocellular carcinoma (HCC), were injected subcutaneously (s.c.) into athymic nude mice to generate established tumors. Intratumoral injection of recombinant adenoviruses expressing secreted as well as the nonsecreted IFN caused suppression of tumor growth. As the AFP promoter is activated in many HCC cells but is silent in normal cells, these constructs may be useful in restricting IFN effects to the tumor cells while reducing toxicity to the neighboring tissues.

Enhanced apoptotic activity of a p53 variant in tumors resistant to wild-type p53 treatment.

TP53 is the most commonly altered tumor-suppressor gene in cancer and is currently being tested in Phase II/III gene replacement trials. Many tumors contain wild-type TP53 sequence with elevated MDM2 protein levels, targeting p53 for degradation. These tumors are more refractory to treatment with exogenous wild-type p53. Here we generate a recombinant adenovirus expressing a p53 variant, rAd-p53 (d 13-19), that is deleted for the amino acid sequence necessary for MDM2 binding (amino acids 13-19). We compared the apoptotic activity of rAd-p53 (d 13-19) with that of a recombinant adenovirus expressing wild-type p53 (rAd-p53) in cell lines that differ in endogenous p53 status. rAd-p53 (d 13-19) caused higher levels of apoptosis in p53 wild-type tumor lines compared with wild-type p53 treatment, as measured by annexin V-FITC staining. In p53-altered tumor lines, rAd-p53 (d 13-19) showed apoptotic activity similar to that seen with wild-type p53 treatment. In normal cells, no increase in cytopathicity was detected with rAd-p53 (d 13-19) compared with wild-type p53 treatment. This variant protein displayed synergy with chemotherapeutic agents to inhibit proliferation of ovarian and breast cell lines. The p53 variant showed greater antitumor activity in an established p53 wild-type tumor compared with treatment with wild-type p53. The p53 variant represents a means of expanding TP53 gene therapy to tumors that are resistant to p53 treatment due to the cellular responses to wild-type p53.

In vivo tumor suppression by adenovirus-mediated interferon alpha2b gene delivery.

A replication-deficient adenovirus encoding human interferon alpha2b, driven by the human cytomegalovirus (CMV) promoter, was constructed and characterized. This construct was used to infect human cells derived from different types of cancer. The production of protein and its secretion into the culture medium were tested by Western blotting and immunoassay. Inhibition of cell proliferation and antiviral activity, two of the most important biological activities of interferon, were observed with this construct. PC-3 cells, derived from human prostatic cancer, or Hep3B cells, derived from human hepatocellular carcinoma, were injected subcutaneously to generate and establish in vivo tumors in athymic nude mice. Intratumoral injection with the recombinant adenovirus expressing interferon alpha2b resulted in complete regression of tumor growth. Our results demonstrate that interferon gene delivery using recombinant adenoviral vectors may be a useful approach to treat a variety of cancers.

Analytical anion-exchange HPLC of recombinant type-5 adenoviral particles.

The expanding use of adenoviral vectors for gene therapy has brought about the need for new analytical tools. We have developed an anion-exchange high-performance liquid chromatography method to analyze recombinant adenovirus serotype 5 samples. Before this assay, available analytical methods consisted of either long-term biological assays or required highly purified test articles. These methods were inadequate for optimizing adenovirus production and purification. This assay can quantitate viral particles in either crude lysates or highly pure samples. It can be used to assess particles in both dilute and concentrated samples over a wide dynamic range. Moreover, the population of viral particles eluted in the peak contains most of the infectious virions. This assay is a sensitive technique that overcomes the limitations of previous methods. It provides an essential tool to accomplish process optimization.

Purification of a type 5 recombinant adenovirus encoding human p53 by column chromatography.

We have investigated the use of column chromatography for the purification of ACN53, a recombinant adenovirus type 5 encoding the human p53 tumor suppressor protein. Anion exchange, size exclusion, hydrophobic interaction, and metal chelating resins were tested; each was found to have distinct advantages and disadvantages. Based on these data, a rapid method was devised for the purification of ACN53. The resultant product was characterized and compared to cesium chloride density-gradient purified virus by SDS-PAGE, Western blot analysis, absorbance spectrum, total particle-to-infectious particle ratio, expression of p53 gene product in Saos-2 cells, growth inhibition of Saos-2 cells, and contamination by ATCC-293 host cell proteins. The results show that column chromatography offers an alternative to ultracentrifugation for the purification of recombinant adenoviruses for use in human gene therapy trials and other research applications.

Recombinant human transforming growth factor-beta 1: expression by Chinese hamster ovary cells, isolation, and characterization.

A partial cDNA clone encoding the gene for human transforming growth factor-beta 1 (TGF-beta 1) was isolated from a human bladder carcinoma cell line (5637) cDNA library. Following restriction enzyme processing and ligation of synthetic oligonucleotide linkers, the gene was inserted into a plasmid and transfected into Chinese hamster ovary cells. Clonal selection and growth conditions resulted in a method for production of recombinant human TGF-beta 1 at 7 mg/liter in conditioned cell medium. Through a combination of low pH treatment, cation-exchange chromatography, and salt precipitation, the recombinant human TGF-beta 1 was purified in milligram amounts to > 95% purity in a yield of about 36%. Purification to homogeneity was accomplished by chromatography on C18 silica gel. Amino acid analysis, N-terminal sequencing, and growth inhibition assays indicate identity with the molecule from human platelets.

Synergistic induction of polypeptides by tumor necrosis factor and interferon-gamma in cells sensitive or resistant to tumor necrosis factor: assessment by computer based analysis of two-dimensional gels using the PDQUEST system.

Tumor necrosis factor (TNF) synergistically enhanced the antiproliferative activity of interferon-gamma (IFN-gamma) in both TNF-sensitive and TNF-resistant variants of the cervical carcinoma line, ME-180. TNF alone had no apparent effect on the levels of synthesis of individual proteins in either of these variant cell lines as assessed by computerized two-dimensional gel analysis of cell lysates using the PDQUEST system. However, IFN-gamma enhanced the levels of 18 polypeptides and suppressed the levels of 10 polypeptides in both cell lines. When used in combination in both cell lines, TNF and IFN-gamma induced the synthesis of 10 polypeptides that were not induced by either agent alone. These synergistically induced polypeptides may be crucial to the mechanism of the synergistic antiproliferative action of TNF and IFN-gamma in ME-180 cells.

Modulation of the growth of transformed cells by human tumor necrosis factor-alpha and interferon-gamma.

Recombinant human tumor necrosis factor-alpha (rHuTNF-alpha) inhibited growth of the cervical carcinoma cell line, ME-180neo, at doses greater than 50 units/ml, but stimulated the growth of these cells at low doses (0.1-10 units/ml). ME-180neo variants selected for resistance to the cytotoxic effects of rHuTNF-alpha retained the ability to be growth stimulated at all concentrations tested. ME-180neo cells and the rHuTNF-alpha-resistant ME-180neo variants possessed equivalent steady state numbers of TNF-alpha receptors with similar Kd values. Recombinant human interferon-gamma (rHuIFN-gamma) augmented the rHuTNF-alpha-induced cytotoxic response of ME-180neo cells and overcame the resistance of the ME-180neo variants to rHuTNF-alpha cytotoxicity. In separate experiments we were able to show that the number of TNF-alpha binding sites on both rHuTNF-alpha-sensitive and -resistant ME-180neo cells was similar and was increased by treatment with rHuIFN-gamma. These results suggest that the growth stimulation of tumor cells mediated by rHuTNF-alpha can be dissociated from the cytotoxic response and that these responses are not related to the number or affinity of TNF-alpha binding sites.

Effects of growth factors on the antiproliferative activity of tumor necrosis factors.

Tumor necrosis factors (TNFs) are a class of cytokines secreted by activated effector cells involved in host defense against tumor progression. Epidermal growth factor (EGF) and recombinant human transforming growth factor-alpha (rHuTGF-alpha) were shown to interfere with the in vitro antiproliferative effects of recombinant human tumor necrosis factor-alpha (rHuTNF-alpha) and -beta on a human cervical carcinoma cell line, ME-180. The inhibitory effect could be observed at EGF or rHuTGF-alpha concentrations of 100 pg/ml, and was maximal between 1 and 10 ng/ml. This response was not due to down regulation of the TNF receptor or to alteration of the affinity of TNF-alpha for its receptor. Since the antiproliferative effect of recombinant human interferon-gamma was not significantly affected by the presence of EGF or rHuTGF-alpha, the inhibition was specific for recombinant TNFs and was not due solely to enhanced proliferation induced by the growth factors. Neither growth factor had a substantial protective effect on the synergistic cytotoxicity observed when tumor cells were exposed simultaneously to rHuTNF-alpha and recombinant human interferon-gamma. TGF-beta can also interfere with the antiproliferative effects of rHuTNF-alpha in vitro. At concentrations of less than 1 ng/ml, TGF-beta significantly antagonized the cytotoxic effects of rHuTNF-alpha on NIH 3T3 fibroblasts. Since EGF, platelet-derived growth factor, and TGF-beta all enhanced NIH 3T3 cell proliferation, but only TGF-beta interfered with rHuTNF-alpha cytotoxicity, the protective effects of TGF-beta were not related in a simple manner to enhanced cell proliferation. rHuTGF-alpha and TGF-beta did not have a significant protective effect against rHuTNF-alpha-mediated cytotoxicity on two other tumor cell lines, BT-20 and L-929 cells. Based upon these observations we suggest that growth factors might enhance tumor growth in vivo by a combination of distinct mechanisms: (a) by autocrine stimulation tumor cell growth; and/or (b) by interfering with normal effector mechanisms of host defense.

Tumor necrosis factor: a potent effector molecule for tumor cell killing by activated macrophages.

Activated macrophages (aM phi) destroy more effectively cancer cells than normal cells. The mechanism by which macrophages destroy cancer cells is not known. We report here that tumor cells susceptible to aM phi were killed by recombinant (r) tumor necrosis factor type alpha (TNF-alpha), whereas variant tumor cells resistant to aM phi after selection in vitro or in vivo were resistant to killing by rTNF-alpha. The converse selection for rTNF-alpha-resistant variants resulted in cells that were also resistant to killing by aM phi. The sensitivity of macrophage-resistant variants was not changed to other tumoricidal cells or soluble mediators, except that the macrophage-resistant variants were also resistant to the effects of another cytotoxic protein, B-cell lymphotoxin, which is structurally related to rTNF-alpha. Similar results were obtained regardless of whether short-term or long-term cytotoxic effects of aM phi were measured. Finally, it was shown that killing of tumor cells by murine aM phi was completely inhibited with a polyclonal antibody that neutralizes the effects of murine TNF-alpha. These results suggest a major role for TNF-alpha in tumor cell destruction by aM phi in vitro and in vivo.

Recombinant human tumor necrosis factor-alpha: effects on proliferation of normal and transformed cells in vitro.

Modulation of the growth of human and murine cell lines in vitro by recombinant human tumor necrosis factor-alpha (rTNF-alpha) and recombinant human interferon-gamma (rIFN-gamma) was investigated. rTNF-alpha had cytostatic or cytolytic effects on only some tumor cell lines. When administered together with rIFN-gamma, rTNF-alpha showed enhanced antiproliferative effects on a subset of the cell lines tested. In contrast to its effects on sensitive tumor cells, rTNF-alpha augmented the growth of normal diploid fibroblasts. Variations in the proliferative response induced by rTNF-alpha were apparently not due to differences in either the number of binding sites per cell or their affinity for rTNF-alpha. These observations indicate that the effects of rTNF-alpha on cell growth are not limited to tumor cells, but rather that this protein may have a broad spectrum of activities in vivo.

Genomic organization, DNA sequence, and expression of chicken embryonic histone genes.

We have isolated and characterized in detail 15 lambda Charon 4A recombinant bacteriophage containing histone genes from a chicken genomic library. Restriction enzyme-mapping analysis and Southern hybridization to sequenced, homologous histone probes indicate that these genes are not tandemly reiterated within the chicken genome; they usually reside in clusters even though there is no unique array of genes that appears to constitute a typical cluster. Chicken H4 and H1 genes were identified within the genomic recombinants and subsequently sequenced. Extensive regions of homology exist in the 5'- and 3'-flanking regions of the chicken H4 gene when compared to H4 genes from other organisms. In addition to the well documented histone-specific domains, two previously unreported regions of homology lie 5' to this gene: an octanucleotide and a pentanucleotide sequence lying 59 and 116 nucleotides upstream from the H4 gene CAP site, respectively. The H1 gene sequence predicts that the H1 polypeptide is 217 amino acids in length. The 5'-flanking domain of this gene contains, in addition to the transcriptional initiation site and the ATA box, two unusual sequences: one is a nonamer which resides 29 nucleotides upstream from the "ATA" box and is conserved in both the chicken and sea urchin H1 genes, while the other is a GC-rich repetitive sequence element. The majority of the chicken histone genes among the 15 unique lambda recombinant clones are expressed almost exclusively during in ovo development (i.e. from at least 4 days postfertilization up to hatching, about 20-21 days postfertilization) and appear not to be associated with any particular tissue type.

Chromosomal arrangement of the chicken beta-type globin genes.

We have isolated the chicken beta-type globin genes from a library of chicken DNA--lambda Charon 4A recombinant bacteriophage. There are four beta-type genes within this segment of the genome; we believe this represents all of the beta-type genes of the chicken. The recombinant lambda C beta G1 contains the embryonic epsilon- and adult beta-globin genes. The hatching beta H- and embryonic rho-globin genes are found in the recombinant lambda C beta G2. Although lambda C beta G1 and lambda C beta G2 do not physically overlap, we present evidence that all four genes are closely linked and transcribed from the same DNA strand. These experiments demonstrate that the chromosomal regions represented by lambda C beta G1 and lambda C beta G2 lie approximately 1.6 kb apart in the chicken genome. A third recombinant lambda C beta G3 extends the genomic locus studied in the vicinity of the beta-type globin genes to approximately 39 kb. The physical order of the chicken beta-type globin genes within this segment of the chromosome is 5' ... rho--beta H--beta--epsilon ... 3'. This arrangement is unique among the vertebrate beta-type globin gene clusters thus far examined, in that embryonic genes are located at the 5' and 3' ends of the cluster while the hatching and adult genes occupy central positions.

Involvement of menaquinone in the active accumulation of aminoglycosides by Bacillus subtilis.

Accumulation of aminoglycoside antibiotics by bacteria requires energy, and it appears that this must be derived from electron transport occurring within the cytoplasmic membrane. Dependence of aminoglycoside accumulation on cellular menaquinone content was examined using a menaquinone auxotroph of bacillus subtilis. This dependence manifested itself only when the menaquinone concentration was decreased to less than 10% of normal. The restricted aminoglycoside accumulation observed under these conditions was closely correlated with susceptibility to growth inhibition by the antibiotics. Evidence of saturation of the accumulation system was observed at low menaquinone concentrations, an effect not seen when menaquinone deficiency was relieved by supplying adequate shikimic acid (a menaquinone precursor) to the auxotroph. Lipophilic quinones may play two roles in aminoglycoside accumulation by bacteria: (i) as a binding site or part of a carrier complex: and (ii) as a crucial component of the electron transport system in maintaining the proton electrochemical gradient.