Historical perspectives pertaining to the NIH Recombinant DNA Advisory Committee.

Science is host to a constantly emerging series of new paradigms, and it is this characteristic that makes science both interesting and dynamic. As a part of this continuum, it became possible to create recombinant DNA molecules. Immediately it was recognized that there was a potential for serious adverse events associated with this new technology.

Adenovirus-based vaccine prevents pneumonia in ferrets challenged with the SARS coronavirus and stimulates robust immune responses in macaques.

A ferret model of severe acute respiratory syndrome (SARS)-CoV infection was used to evaluate the efficacy of an adenovirus vaccine. Animals were subjected to heterologous prime-boost using vectors from human serotype 5 and chimpanzee derived adenoviruses (human AdHu5 and chimpanzee AdC7) expressing spike protein followed by intranasal challenge with SARS-CoV. Vaccination led to a substantial reduction in viral load and prevented the severe pneumonia seen in unvaccinated animals.

Analysis of tumors arising in male B6C3F1 mice with and without AAV vector delivery to liver.

The present study reports on the frequency of liver tumors observed in a gene therapy study with AAV vectors in male mice of the B6C3F1 hybrid background, which are known to have a high frequency of spontaneous liver tumors. Male mice with mutations in their Otc gene and their wild-type siblings received AAV vectors expressing either the murine Otc or the LacZ gene. Untreated control animals were included in the study.

No evidence for tumorigenesis of AAV vectors in a large-scale study in mice.

Six hundred ninety-five mice received adeno-associated virus (AAV) vectors, mostly via portal vein injection. At necropsy, the livers were inspected for tumors, and tissue sections were prepared for histology. We observed only one tumor, a lipoma, resulting in a tumor frequency of 0.

Resolution of primary severe acute respiratory syndrome-associated coronavirus infection requires Stat1.

Intranasal inhalation of the severe acute respiratory syndrome coronavirus (SARS CoV) in the immunocompetent mouse strain 129SvEv resulted in infection of conducting airway epithelial cells followed by rapid clearance of virus from the lungs and the development of self-limited bronchiolitis. Animals resistant to the effects of interferons by virtue of a deficiency in Stat1 demonstrated a markedly different course following intranasal inhalation of SARS CoV, one characterized by replication of virus in lungs and progressively worsening pulmonary disease with inflammation of small airways and alveoli and systemic spread of the virus to livers and spleens.

Macaque model for severe acute respiratory syndrome.

Rhesus and cynomolgus macaques were challenged with 10(7) PFU of a clinical isolate of the severe acute respiratory syndrome (SARS) coronavirus. Some of the animals developed a mild self-limited respiratory infection very different from that observed in humans with SARS. The macaque model as it currently exists will have limited utility in the study of SARS and the evaluation of therapies.

Fatal systemic inflammatory response syndrome in a ornithine transcarbamylase deficient patient following adenoviral gene transfer.

We report the death of an 18-year-old male with partial ornithine transcarbamylase (OTC) deficiency who participated in a pilot (safety) study of gene therapy. The vector used for this trial was based on human adenovirus type 5, deleted in E1 and E4, and contained human OTC cDNA. It was infused into the right hepatic artery at a dose of 6x10(11)particles/kg.

A pilot study of in vivo liver-directed gene transfer with an adenoviral vector in partial ornithine transcarbamylase deficiency.

Ornithine transcarbamylase deficiency (OTCD) is an inborn error of urea synthesis that has been considered as a model for liver-directed gene therapy. Current treatment has failed to avert a high mortality or morbidity from hyperammonemic coma. Restoration of enzyme activity in the liver should suffice to normalize metabolism.

Construction of adenoviral vectors.

Recombinant adenovirus vectors have proven to be useful tools in facilitating gene transfer. Construction of such vectors requires a knowledge of the adenovirus genome structure and its life cycle. A commonly used recombinant adenovirus involves deletion of the E1 region; such a recombinant is traditionally produced by overlap recombination after cotransfection of 293 cells with a plasmid shuttle vector and a large right-end restriction fragment of viral DNA.

Clinical infection control in gene therapy: a multidisciplinary conference.

Gene therapy is being studied for the treatment of a variety of acquired and inherited disorders. Retroviruses, adenoviruses, poxviruses, adeno-associated viruses, herpesviruses, and others are being engineered to transfer genes into humans. Treatment protocols using recombinant viruses are being introduced into clinical settings.

Production of recombinant adeno-associated virus.

Currently, rAAV appears to be one of the most promising vectors for gene therapy applications. Attractive features of the vector include nonpathogenicity, the ability to infect nondividing cells, escape from host immune responses, and integration into the host genome. Tremendous progress has been made in the production of this vector, which makes it possible to start to examine the vector performance in large animals and to implement the transition to phase I human clinical trials with a variety of target tissues and therapeutic genes.

Methods of gene delivery.

Human gene therapy continues to be an exciting concept for the treatment of disease. This field of research remains in its early stages, but already a number of studies have provided "proof-of-principle." Although there is no unequivocal evidence of efficacy, there have been demonstrated physiologic changes that are relevant to the disease process.

Gene therapy. Molecular medicine of the 1990s.

In less than four years, the techniques of gene transfer have been taken from the laboratory and translated into numerous clinical trials. Although gene therapy was initially designed for the molecular repair of monogenic deficiency diseases, most of the current studies of gene therapy are targeting cancer.

Germ-line gene modification and disease prevention: some medical and ethical perspectives.

There has been considerable debate about the ethics of human germ-line gene modification. As a result of recent advances in the micromanipulation of embryos and the laboratory development of transgenic mice, a lively discussion has begun concerning both the technical feasibility and the ethical acceptability of human germ-line modification for the prevention of serious disease. This article summarizes some of the recent research on germ-line gene modification in animal models.

Induction of B-cell lymphomas in athymic NIH Swiss nu/nu mice.

A B-cell lymphoma was induced in athymic NIH Swiss nu/nu mice by challenging the animals with NIH3T3 cells, previously transfected with a recombinant DNA carrying a human oncogene hhcM, ligated to an SV40 promoter with a neomycin-resistance marker. The gross pathology of the tumor-bearing animal revealed generalized lymphadenopathy and the histopathology indicated widespread infiltration of lymphocytes into organs, such as brain, liver, kidney and lung, in addition to the lymphoid tissues and spleen; the appearance was consistent with diffuse histiocytic lymphoma. Direct immunofluorescence assays with specific typing anti-sera on live cells prepared from spleen and various lymph nodes in short-term culture, suggested the cells were B-cells.

Murine type C retroviruses and intracisternal A-particles in human tumors serially passaged in nude mice.

An ultrastructural survey of 11 human tumors passaged in N:NIH(S) (nu/nu) mice showed two instances of type C virus production. In one instance type C virus particles were observed in the endothelial murine stromal cell component of an embryonal carcinoma but not in the human tumor cells. In another instance type C virus particles were seen replicating in the chondroblastic human cells of a xenografted osteosarcoma.

Interferon treatment of murine Meth-A sarcoma cells: effects on the malignant phenotype and expression of tumor-specific and H-2 antigens.

A virus-free methycholanthrene-induced sarcoma (Meth-A) in BALB/c mice was grown in culture and treated with purified mouse interferon (alpha and beta mixture) prior to testing for oncogenicity in the host animal. Use of interferon in vitro caused growth inhibition, but not cytotoxic effects; such effects were fully reversible upon interferon removal from the system. There was a significant decrease in tumor incidence in mice challenged with interferon-treated cells, but this could be overcome by sufficiently increasing the number of cells in the inoculating dose.

Effect of interferon on the replication of mink cell focus-inducing virus in murine cells: synthesis, processing, assembly, and release of viral proteins.

Treatment of mink cell focus-inducing (MCF) virus (isolate AK-13) producing SC-1 cells with mouse fibroblast interferon (150 to 600 U/ml) led to a 100-fold decrease in the release of infectious virus, whereas there was a 2.5- to 10-fold decrease in various parameters of virus particle release. Analysis of labeled virion proteins indicated that a temporal change in virion protein composition occurred after interferon treatment.

possible role of a retrovirus in the expression of tumor-specific antigens of the Meth A sarcoma.

The serologically defined tumor-specific surface antigen (TSSA) of the chemically-induced BALB/c Meth A sarcoma, highly restricted to one of 20 sarcomas of BALB/c origin, has been detected on a Moloney murine sarcoma virus (Mo-MuSV)-transformed BALB/c 3T3 cell lines, designated IIA(v). The immunogenicity of the IIA(v) cell in tumor-rejection assays was specific for the Meth A sarcoma, supporting the evidence for a close relationship between the TSSA and the tumor-associated transplantation antigen (TATA) of this tumor. Infection of SC-I cells with retroviruses present in cultured filtrates of IIA(v) cells resulted in Meth A antigen expression.