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Adeno-associated Virus Biology And Utilization For Gene Transfer

$1,482,330ZIAFY2023DENIH

National Institute Of Dental & Craniofacial Research

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Abstract

Aggregation of unbiased transcriptome profiling data sets of minor salivary gland biopsies from controls and Sjgrens syndrome patients identified increased expression of lysosome-associated membrane protein 3 (LAMP3/CD208/DC-LAMP) in a subset of Sjgrens syndrome cases suggesting a role for the lysosome in Sjogrens syndrome. Stratification of patients based on their clinical characteristics suggested an association between increased LAMP3 expression and the presence of serum autoantibodies including anti-Ro/SSA, anti-La/SSB, anti-nuclear antibodies. In vitro studies demonstrated that LAMP3 expression induces epithelial cell dysfunction leading to apoptosis. Interestingly, LAMP3 expression resulted in the accumulation and release of intracellular TRIM21 (one component of SSA), La (SSB), and -fodrin protein, common autoantigens in Sjgrens syndrome, via extracellular vesicles in an apoptosis-independent mechanism. This study defines a clear role for LAMP3 in the initiation of apoptosis and an independent pathway for the extracellular release of known autoantigens leading to the formation of autoantibodies associated with this disease. Furthermore, additional work in mice using AAV vectors that encode LAMP3 introduced into the salivary gland showed that LAMP3 expression could initiate an autoimmune response with autoantibody production and salivary dysfunction similar to SS (Nakamura 2021). This model is currently being used to test novel therapies for Sjogrens syndrome as well as investigate the potential for better targeting of current therapies to specific patient sub-groups. Follow-on in vitro experiments with cells exposed to extracellular particles (EPs) derived from LAMP3-overexpressing cells showed increased apoptosis. Proteomics identified LAMP3 as a major component of EPs derived from LAMP3-overexpressing cells. Live-cell imaging visualized release and uptake of LAMP3-containing EPs from LAMP3-overexpressing cells to nave cells. Furthermore, experiments with recombinant LAMP3 protein alone or complexed with Xfect protein transfection reagent demonstrated that internalization of LAMP3 was required for apoptosis in a caspase-dependent pathway. Taken together, we identified a new role for extracellular LAMP3 in cell-to-cell communication via EPs, which provides further support for targeting LAMP3 as a therapeutic approach in SjD. Sjgren's disease has a strong sex bias, suggesting an association with sex hormones. Male SjD represents a distinct subset of the disease, but the pathogenic mechanisms of male SjD is poorly characterized. The aim of another study is to identify initiating events related to the development of gland hypofunction and autoimmunity in male SjD patients. Materials and methods: Human minor salivary glands were transcriptomically analyzed with microarrays to detect differentially expressed genes in male SjD patients. Identified genes were tested on their involvement in the disease using conditional transgenic mice and gene-overexpressing cells. One gene, GPR78, an orphan G protein-coupled receptor, was overexpressed in the salivary glands of male SjD patients compared with male healthy controls and female SjD patients. Male GPR78 transgenic mice developed salivary gland hypofunction with increased epithelial apoptosis, which was not seen in control or female transgenic mice. In cell culture, GPR78 overexpression decreased lysosomal integrity, leading to caspase-dependent apoptotic cell death. GPR78-induced cell death in vitro was inhibited by treatment with estradiol. Thus, GPR78 overexpression can induce apoptosis and salivary gland hypofunction in male mice through lysosomal dysfunction and increased caspase-dependent apoptosis in salivary gland epithelium, which may drive disease in humans. Hydroxychloroquine (HCQ) is a lysosomotropic agent that is commonly used for treating Sjgren's disease (SjD). However, its efficacy is controversial because of the divergent response to the drug among patients. In a subgroup of SjD patients, lysosome-associated membrane protein 3 (LAMP3) is elevated in expression in the salivary glands and promotes lysosomal dysregulation and lysosome-dependent apoptotic cell death. In another study, chloroquine (CQ) and its derivative HCQ were tested for their ability to prevent LAMP3-induced apoptosis, in vitro and on a mouse model of SjD. In addition, efficacy of HCQ treatment was retrospectively compared between high LAMP3 mRNA expression in minor salivary glands and those with LAMP3 mRNA levels comparable with healthy controls. Study results show that CQ treatment stabilized the lysosomal membrane in LAMP3-overexpressing cells via deactivation of cathepsin B, resulting in decreased apoptotic cell death. In mice with established SjD-like phenotype, HCQ treatment also significantly decreased apoptotic cell death and ameliorated salivary gland hypofunction. Retrospective analysis of SjD patients found that HCQ tended to be more effective in improving disease activity index, symptom severity and hypergammaglobulinemia in patients with high LAMP3 expression compared those with normal LAMP3 expression. Taken together, these findings suggested that by determining salivary gland LAMP3 mRNA level, a patient's response to HCQ treatment could be predicted. This finding may provide a novel strategy for guiding the development of more personalized medicine for SjD. Sjgren's disease (SjD) is a chronic autoimmune sialadenitis resulting in salivary gland hypofunction with dry mouth symptom. Previous studies showed that lysosome-associated membrane protein 3 (LAMP3) overexpression is involved in the development of salivary gland hypofunction associated with SjD. However, the molecular mechanisms are still unclear, and no effective treatment exists to reverse gland function in SjD. Analysis on salivary gland samples from SjD patients showed that salivary gland hypofunction was associated with decreased expression of sodium-potassium-chloride cotransporter-1 (NKCC1) and aquaporin 5 (AQP5), which are membrane proteins involved in salivation. Further studies revealed that LAMP3 overexpression decreased their expression levels by promoting endolysosomal degradation. Additionally, we found that LAMP3 overexpression enhanced gene transfer by increasing internalization of adeno-associated virus serotype 2 (AAV2) via the promoted endolysosomal pathway. Retrograde cannulation of AAV2 vectors encoding AQP1 gene (AAV2-AQP1) into salivary glands induced glandular AQP1 expression sufficient to restore salivary flow in LAMP3-overexpressing mice. LAMP3 could play a critical role in the development of salivary gland hypofunction in SjD by promoting endolysosomal degradation of NKCC1 and AQP5. But it also could enhance AAV2-mediated gene transfer to restore fluid movement through induction of AQP1 expression. These findings suggested that AAV2-AQP1 gene therapy is useful in reversing salivary gland function in SjD patients. Ongoing efforts/future plans: In summary, the future directions for the AAV Biology Section will be to continue examination and development of gene transfer vectors and other genetic tools for use in treating and understanding the fundamental biology associated with cell physiology and the development of disease.

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