Sara La Manna scite author profile

Polymeric microparticles (MPs) are recognized as very popular carriers to increase the bioavailability and bio-distribution of both lipophilic and hydrophilic drugs. Among different kinds of polymers, poly-(lactic-co-glycolic acid) (PLGA) is one of the most accepted materials for this purpose, because of its biodegradability (due to the presence of ester linkages that are degraded by hydrolysis in aqueous environments) and safety (PLGA is a Food and Drug Administration (FDA)-approved compound). Moreover, its biodegradability depends on the number of glycolide units present in the structure, indeed, lower glycol content results in an increased degradation time and conversely a higher monomer unit number results in a decreased time. Due to this feature, it is possible to design and fabricate MPs with a programmable and time-controlled drug release. Many approaches and procedures can be used to prepare MPs. The chosen fabrication methodology influences size, stability, entrapment efficiency, and MPs release kinetics. For example, lipophilic drugs as chemotherapeutic agents (doxorubicin), anti-inflammatory non-steroidal (indomethacin), and nutraceuticals (curcumin) were successfully encapsulated in MPs prepared by single emulsion technique, while water-soluble compounds, such as aptamer, peptides and proteins, involved the use of double emulsion systems to provide a hydrophilic compartment and prevent molecular degradation. The purpose of this review is to provide an overview about the preparation and characterization of drug-loaded PLGA MPs obtained by single, double emulsion and microfluidic techniques, and their current applications in the pharmaceutical industry. Graphic abstract

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Peptides as Therapeutic Agents for Inflammatory-Related Diseases

Manna

Natale

Florio

et al. 2018

IJMS

123

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Inflammation is a physiological mechanism used by organisms to defend themselves against infection, restoring homeostasis in damaged tissues. It represents the starting point of several chronic diseases such as asthma, skin disorders, cancer, cardiovascular syndrome, arthritis, and neurological diseases. An increasing number of studies highlight the over-expression of inflammatory molecules such as oxidants, cytokines, chemokines, matrix metalloproteinases, and transcription factors into damaged tissues. The treatment of inflammatory disorders is usually linked to the use of unspecific small molecule drugs that can cause undesired side effects. Recently, many efforts are directed to develop alternative and more selective anti-inflammatory therapies, several of them imply the use of peptides. Indeed, peptides demonstrated as elected lead compounds toward several targets for their high specificity as well as recent and innovative synthetic strategies. Several endogenous peptides identified during inflammatory responses showed anti-inflammatory activities by inhibiting, reducing, and/or modulating the expression and activity of mediators. This review aims to discuss the potentialities and therapeutic use of peptides as anti-inflammatory agents in the treatment of different inflammation-related diseases and to explore the importance of peptide-based therapies.

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Mimetics of suppressor of cytokine signaling 3: Novel potential therapeutics in triple breast cancer

Manna

Lee

Ouzounova

et al. 2018

Intl Journal of Cancer

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Suppressor of cytokine signaling (SOCS) family of proteins plays critical role in the regulation of immune responses controlling JAK/STAT mediated inflammatory cytokines. Among the members, SOCS1 and SOCS3 contain a kinase inhibitory region (KIR) and SOCS3 binds to JAK/STAT/gp130 complex by inhibiting the downstream signaling and suppressing inflammatory cytokines. Loss or reduced levels of SOCS3 have been linked to cancer-associated inflammation and suppressive immunity leading to enhanced tumor growth and metastasis. In line with these reports, we previously demonstrated that proteolytic degradation of SOCS3 in triple negative breast cancer (TNBC) subtype drives the expression of inflammatory cytokines. Therefore, we postulated that SOCS3 mimetics might suppress the inflammatory cytokine production in TNBC subtype and inhibit tumor growth and metastasis. Here we designed and characterized five linear peptides derived from the N-terminal region of SOCS3 encompassing regions that interface with the JAK2/gp130 complex using the Circular Dichroism and Surface Plasmon Resonance spectroscopies. The KIRESS peptide resulted the sequence containing the most part of the hot-spots required for binding to JAK2 and was further investigated in vivo in mouse xenografts of MDA-MB-231-luci tumors as models of human TNBC subtype. Expectedly, this peptide showed a significant inhibition of primary tumor growth and pulmonary metastasis. Our studies suggest that SOCS3 peptidomimetics may possess a therapeutic potential in aggressive cancers, such as TNBC subtype, with activated inflammatory cytokines.

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Structural insights into amyloid structures of the C-terminal region of nucleophosmin 1 in type A mutation of acute myeloid leukemia

Natale

Manna

Malfitano

et al. 2019

Biochimica et Biophysica Acta (BBA) - Proteins and Proteomics

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Sara La Manna

Recent advances in the formulation of PLGA microparticles for controlled drug delivery

Peptides as Therapeutic Agents for Inflammatory-Related Diseases

Mimetics of suppressor of cytokine signaling 3: Novel potential therapeutics in triple breast cancer

Structural insights into amyloid structures of the C-terminal region of nucleophosmin 1 in type A mutation of acute myeloid leukemia

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