Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P00790 (PGA)
 2,475 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The development of a prophylactic/therapeutic HIV-1 vaccine based on recombinant proteins is needed for the control of the worldwide AIDS epidemic. Subunit protein and peptide vaccines are generally very safe, with well-defined components. However, these antigens are often poorly immunogenic, and thus require the use of adjuvants to induce adequate immunity. Particulate adjuvants (e.g. micro/nanoparticles, emulsions, ISCOMS, liposomes, virosomes, and virus-like particles) have been widely investigated as HIV-1 vaccine delivery systems. Antigen uptake by antigen-presenting cells (APC) is enhanced by the association of the antigens with polymeric micro/nanoparticles. The adjuvant effect of micro/nanoparticles appears to largely be a consequence of their uptake into APC. More importantly, particulate antigens have been shown to be more efficient than soluble antigens for the induction of immune responses. Over the past two decades, we have studied the synthesis and clinical applications of core-corona polymeric nanospheres composed of hydrophobic polystyrene and hydrophilic macromonomers. Core-corona type polymeric nanospheres have applications in various technological and biomedical fields, because their chemical structures and particle size can be easily controlled. In this study, we focused on the development of a HIV-1 vaccine using polymeric nanoparticles. We evaluated the immunization strategies for HIV-1-capturing core-corona type polystyrene nanospheres that would efficiently induce HIV-1-specific IgA responses in female mice and the macaque genital tract. Moreover, based on this research, we attempted to develop novel biodegradable nanoparticles composed of poly (gamma-glutamic acid) (gamma-PGA) for protein-based vaccine delivery. These HIV-1-capturing nanospheres and protein-loaded gamma-PGA nanoparticles have shown unique potential as vaccine carriers.
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PMID:[Development of vaccine adjuvants using polymeric nanoparticles and their potential applications for anti-HIV vaccine]. 1726 51

The mainstream of recent anti-AIDS vaccines is a prime/boost approach with multiple doses of the target DNA of human immunodeficiency virus type 1 (HIV-1) and recombinant viral vectors. In this study, we have attempted to construct an efficient protein-based vaccine using biodegradable poly(gamma-glutamic acid) (gamma-PGA) nanoparticles (NPs), which are capable of inducing potent cellular immunity. A significant expansion of CD8+ T cells specific to the major histocompatibility complex class I-restricted gp120 epitope was observed in mice intranasally immunized once with gp120-carrying NPs but not with gp120 alone or gp120 together with the B-subunit of cholera toxin. Both the gp120-encapsulating and -immobilizing forms of NPs could induce antigen-specific spleen CD8+ T cells having a functional profile of cytotoxic T lymphocytes. Long-lived memory CD8+ T cells could also be elicited. Although a substantial decay in the effector memory T cells was observed over time in the immunized mice, the central memory T cells remained relatively constant from day 30 to day 238 after immunization. Furthermore, the memory CD8+ T cells rapidly expanded with boosting with the same immunogen. In addition, gamma-PGA NPs were found to be a much stronger inducer of antigen-specific CD8+ T-cell responses than nonbiodegradable polystyrene NPs. Thus, gamma-PGA NPs carrying various HIV-1 antigens may have great potential as a novel priming and/or boosting tool in current vaccination regimens for the induction of cellular immune responses.
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PMID:Induction of potent CD8+ T-cell responses by novel biodegradable nanoparticles carrying human immunodeficiency virus type 1 gp120. 1760 61

During the past decade, the arena of polymer therapeutics has acquired considerable interest and accompanied by advanced designs and chemical properties of polymer-drug conjugates. Various polymers, such as poly (ethylene glycol) (PEG), N-(2-hydroxypropyl) methacrylamide (HPMA), poly(glycolic acid) (PGA) and poly(lactide-co-glycolide) (PLGA) have been used successfully for clinical utilization from decades. These polymers are used in combination of drugs in such a manner that they target the specific tissues and thus the toxicity of drugs to other tissues is reduced. Presently, numerous polymer drug conjugates are under clinical trial for treatment of various diseases including cancer, diabetes, AIDS, rheumatoid arthritis etc. Many protein-polymer conjugates have been approved by FDA for clinical use but till date, no polymer-synthetic drug conjugate is approved by FDA, although many of them are undergoing final phase of clinical trials. This review highlights the recent advancements in the polymer-drug conjugates for treatment of various diseases and their preclinical and clinical status.
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PMID:Polymer Drug Conjugates: Recent Advancements in Various Diseases. 2689 41