Abstract: Viral infection has been suspected in the development of primary Sjögren's syndrome (pSS). Using a custom viral microarray, hepatitis delta virus (HDV) genomes and antigens were detected in minor salivary glands of patients with pSS. Expression of HDV antigens in healthy mice led to a Sjögren's syndrome-like pathogenesis characterized by a reduction in salivary flow, increase in lymphocytic foci, and the development of an autoantibody profile similar to HDV-positive patients. Also described herein is the detection of HDV in patients diagnosed with lymphoma. Expression of HDV antigen in healthy mice resulted in the development of tertiary lymphoid structures characteristic of the early stages of lymphoma. A sensitive, nested qPCR assay to detect HDV transcript and/or HDV genome in patient samples is also described.

Abstract: Comparative gene analysis (CGA) was combined with pathway visualization software to identify a positive correlation between AAV6 transduction and epidermal growth factor receptor (EGFR) expression. It was found that EGFR is necessary for vector internalization and functions as a co-receptor for AAV6. The identification and characterization of AAV6's requirement of EGFR expression for high transduction activity has allowed construction of recombinant AAV6 vectors which are capable of targeting and killing specific types of head and neck tumors that because of this high EGFR activity, were until now, refractory to current therapies.

Abstract: Viral infection has been suspected in the development of primary Sjögren's syndrome (pSS). Using a custom viral microarray, hepatitis delta virus (HDV) genomes and antigens were detected in minor salivary glands of patients with pSS. Expression of HDV antigens in healthy mice led to a Sjögren's syndrome-like pathogenesis characterized by a reduction in salivary flow, increase in lymphocytic foci, and the development of an autoantibody profile similar to HDV-positive patients. Also described herein is the detection of HDV in patients diagnosed with lymphoma. Expression of HDV antigen in healthy mice resulted in the development of tertiary lymphoid structures characteristic of the early stages of lymphoma. A sensitive, nested qPCR assay to detect HDV transcript and/or HDV genome in patient samples is also described.

Abstract: Comparative gene analysis (CGA) was combined with pathway visualization software to identify a positive correlation between AAV6 transduction and epidermal growth factor receptor (EGFR) expression. It was found that EGFR is necessary for vector internalization and functions as a co-receptor for AAV6. The identification and characterization of AAV6's requirement of EGFR expression for high transduction activity has allowed construction of recombinant AAV6 vectors which are capable of targeting and killing specific types of head and neck tumors that because of this high EGFR activity, were until now, refractory to current therapies.

Abstract: Comparative gene analysis (CGA) was combined with pathway visualization software to identify a positive correlation between AAV6 transduction and epidermal growth factor receptor (EGFR) expression. It was found that EGFR is necessary for vector internalization and functions as a co-receptor for AAV6. The identification and characterization of AAV6's requirement of EGFR expression for high transduction activity has allowed construction of recombinant AAV6 vectors which are capable of targeting and killing specific types of head and neck tumors that because of this high EGFR activity, were until now, refractory to current therapies.

Abstract: Comparative gene analysis (CGA) was combined with pathway visualization software to identify a positive correlation between AAV6 transduction and epidermal growth factor receptor (EGFR) expression. It was found that EGFR is necessary for vector internalization and functions as a co-receptor for AAV6. The identification and characterization of AAV6's requirement of EGFR expression for high transduction activity has allowed construction of recombinant AAV6 vectors which are capable of targeting and killing specific types of head and neck tumors that because of this high EGFR activity, were until now, refractory to current therapies.