Abstract: The instant invention discloses a method of ablating holes in a material, using a laminated material comprising first and second layers, said first and second layers having different coefficients of thermal expansion, said first layer having within it a hole, wherein a target region of said second layer in said laminated material is not laminated to said first layer but is surrounded entirely by laminated regions wherein the first layer is laminated to the second layer; providing a laser source producing energy of a wavelength and a power level that can ablate material from said first layer; changing the temperature of the laminated material so as to place said target region under tension; and directing said laser source onto said target region and ablating a portion thereof.

Abstract: The invention features a monoclonal antibodies specific for human type I alveolar cells or for human type II alveolar cells. The invention also features methods of detecting lung injury in a subject using these monoclonal antibodies.

Abstract: Hypersecretion of mucus in the lungs is inhibited by the administration of an epidermal growth factor receptor (EGF-R) antagonist. The EGF-R antagonist may be in the form of a small organic molecule, an antibody, or portion of an antibody that binds to and blocks the EGF receptor. The EGF-R antagonist is preferably administered by injection in an amount sufficient to inhibit formation of goblet cells in pulmonary airways. The degranulation of goblet cells that results in airway mucus production is thereby inhibited. Assays for screening candidate agents that inhibit goblet cell proliferation are also provided.

Abstract: A novel human glycosylsulfotransferase expressed in high endothelial cells (GST-3) and polypeptides related thereto, as well as nucleic acid compositions encoding the same, are provided. The subject polypeptides and nucleic acid compositions find use in a variety of applications, including research, diagnostic, and therapeutic agent screening applications. Also provided are methods of inhibiting selectin mediated binding events and methods of treating disease conditions associated therewith.

Abstract: Intestinal epithelial cells of a mammalian subject are genetically altered to operatively incorporate a gene which expresses a protein which has a desired effect. The method of the invention comprises administration of a formulation containing DNA to the gastrointestinal tract, preferably by an oral route. The expressed recombinant protein is secreted directly into the bloodstream. Of particular interest is the use of the method of the invention to provide for short term delivery of gene products to the bloodstream.

Abstract: Secretory gland cells, particularly pancreatic and salivary gland cells, are genetically altered to operatively incorporate a gene which expresses a protein which has a desired therapeutic effect on a mammalian subject. The expressed protein is secreted directly into the gastrointestinal tract and/or blood stream to obtain therapeutic blood levels of the protein thereby treating the patient in need of the protein. The transformed secretory gland cells provide long term therapeutic cures for diseases associated with a deficiency in a particular protein or which are amenable to treatment by overexpression of a protein.

Abstract: TSG101 is a tumor susceptibility gene whose homozygous functional knock out in fibroblasts leads to transformation and the ability of these cells to form metastatic tumors in nude mice. The cellular transformation that results from inactivation of TSG101 is reversible by restoration of TSG101 function. Decreased expression of TSG101 is associated with the occurrence of certain human cancers, including breast carcinomas. The TSG101 nucleic acid compositions find use in identifying homologous or related proteins and the DNA sequences encoding such proteins; in producing compositions that modulate the expression or function of the protein; and in studying associated physiological pathways. In addition, modulation of the gene activity in vivo is used for prophylactic and therapeutic purposes, such as treatment of cancer, identification of cell type based on expression, and the like.

Abstract: Purification of poly-amino acid-tagged recombinant proteins has been improved by the use of a carboxymethylated aspartate ligand complexed with a third-block transition metal having an oxidation state of 2+ and a coordination number of 6. A method for synthesizing the metal ion-CM-Asp complex is also described. Further, the metal ion-CM-Asp complex can be used for screening protein function.

Abstract: The invention consists of oligonucleotides which inhibit the immunostimulatory activity of ISS-ODN (immunostimulatory sequence oligodeoxynucleotides) as well as methods for their identification and use. The oligonucleotides of the invention are useful in controlling therapeutically intended ISS-ODN adjuvant activity as well as undesired ISS-ODN activity exerted by recombinant expression vectors, such as those used for gene therapy and gene immunization. The oligonucleotides of the invention also have anti-inflammatory activity useful in reducing inflammation in response to infection of a host with ISS-ODN containing microbes, in controlling autoimmune disease and in boosting host Th2 type immune responses to an antigen. The invention also encompasses pharmaceutically useful conjugates of the oligonucleotides of the invention (including conjugate partners such as antigens and antibodies).

Abstract: Intestinal epithelial cells of a mammalian subject are genetically altered to operatively incorporate a gene which expresses a protein which has a desired therapeutic effect. Intestinal cell transformation is accomplished by administration of a formulation composed primarily of naked DNA, and is preferably administered orally. Oral or other intragastrointestinal routes of administration provide a simple method of administration, while the use of naked nucleic acid avoids the complications associated with use of viral vectors to accomplish gene therapy. The expressed protein is secreted directly into the gastrointestinal tract and/or blood stream to obtain therapeutic blood levels of the protein thereby treating the patient in need of the protein. The transformed intestinal epithelial cells provide short or long term therapeutic cures for diseases associated with a deficiency in a particular protein or which are amenable to treatment by overexpression of a protein.

Abstract: The invention features methods of identifying a compound which suppresses ventricular muscle cell hypertrophy. In one embodiment, ventricular muscle cells are contacted with a test compound, which acts through an RAR or RXR receptor, in the presence of an inducer of hypertrophy. Development of ventricular muscle cell hypertrophy is then measured to identify compounds having the desired activity.

Abstract: Methods for isolating costal2 genes are provided. The costal2 nucleic acid compositions find use in identifying homologous or related proteins and the DNA sequences encoding such proteins; in producing compositions that modulate the expression or function of the protein; and in studying associated physiological pathways. In addition, modulation of the gene activity in vivo is used for prophylactic and therapeutic purposes, such as identification of cell type based on expression, and the like.

Abstract: A plasmid was constructed, in which the hiNOS structural gene was replaced with the luciferase structural gene as a reporter gene, with retaining functions of the hiNOS gene 5′-promoter region and 3′-untranslated region. This plasmid was stably transfected into human cell lines. The above transformed cells selectively expressed the reporter gene in the presence of inducers. It has become possible, by examining the reporter gene expression in these transformed cells, to simply and easily screen, with high sensitivity, a compound which is expected to be useful for treating inflammations and sepsis by suppressing the hiNOS expression, or a compound which is expected to be useful for antitumor, antiviral, and vascular restenosis prevention treatments by the hiNOS induction.

Abstract: The invention is based on the discovery of methods for purification of an acid active hyaluronidase found in human plasma (hpHAse), including both biochemical and immunoaffinity purification methods. The method of immunoaffinity purification of the invention is based on the discovery of a method for identifying antibodies that specifically bind native hpHAse (anti-native hpHAse antibodies), and anti-native hpHAse antibodies identified by this screening method. The invention also features an assay for sensitive detection of HAse activity using biotinylated hyaluronic acid (bHA). Purification and characterization of hpHAse lead to the inventors' additional discovery that hpHAse is encoded by the LuCa-1 gene, which gene is present in the human chromosome at 3p21.3, a region associated with tumor suppression. The invention additionally features methods of treating tumor-bearing patients by administration of hpHAse and/or transformation of cells with hpHAse-encoding DNA.

Abstract: Primordial germ cells are extracted from post blastocyst piorcine embryos such as extracting primordial germ cells from the gonadal ridges of 25-day porcine embryos. The primordial germ cells are cultured in long term culture (over 30 days) resulting in cells which resemble embryonic stem cells in morphology and with respect to maintaining pluripotency. The cells obtained can be maintained for several months in culture and can be genetically manipulated using homologous recombination technology in order to insert desired genetic material into the genetic complement of the cell at a desired location. The genetically manipulated cell can be inserted into a porcine blastocyst to produce a chimeric porcine.

Abstract: The present invention features non-human transgenic animal models for Alzheimer's disease (AD) and CAA, wherein the transgenic animal is characterized by 1) overexpression of bioactive transforming growth factor-&bgr;1 (TGF-&bgr;1) or 2) both overexpression of bioactive TGF-&bgr;1 and expression of a human amyloid &bgr; precursor protein (APP) gene product. The transgenic animals may be either homozygous or heterozygous for these alterations. Bigenic animals are further characterized by development of AD-associated and/or CAA-associated pathology within about two to three months of age.

Abstract: The invention is directed to a method for treating both the early and late phases of allergic asthma by introducing naked polynucleotides which operatively encode for the asthma-initiating antigen into the host. The antigen-encoding polynucleotides are administered to host tissues which contain a high concentration of antigen presenting cells (e.g., skin and mucosa) relative to other host tissues. Expression of the asthma-initiating antigen encoding polynucleotides of the invention inside of antigen presenting cells (without substantial secretion therefrom) induces antigen tolerance while suppressing IgE antibody formation in the early phase of the disease, and also suppresses cytokine-mediated eosinophil accumulation in the late phase of the disease. Devices and compositions for use in the methods of the invention are also described.