Phage Display Derived Monoclonal Antibodies: From Bench to Bedside.

Monoclonal antibodies (mAbs) have become one of the most important classes of biopharmaceutical products, and they continue to dominate the universe of biopharmaceutical markets in terms of approval and sales. They are the most profitable single product class, where they represent six of the top ten selling drugs. At the beginning of the 1990s, an in vitro antibody selection technology known as antibody phage display was developed by John McCafferty and Sir. Gregory Winter that enabled the discovery of human antibodies for diverse applications, particularly antibody-based drugs. They created combinatorial antibody libraries on filamentous phage to be utilized for generating antigen specific antibodies in a matter of weeks. Since then, more than 70 phage-derived antibodies entered clinical studies and 14 of them have been approved. These antibodies are indicated for cancer, and non-cancer medical conditions, such as inflammatory, optical, infectious, or immunological diseases. This review will illustrate the utility of phage display as a powerful platform for therapeutic antibodies discovery and describe in detail all the approved mAbs derived from phage display.

Multifunctional lipid-coated calcium phosphate nanoplatforms for complete inhibition of large triple negative breast cancer via targeted combined therapy.

Combined and targeted therapy have been extensively employed to achieve more effective elimination of tumor tissues. In this study, biocompatible multifunctional lipid-coated calcium phosphate nanoparticles (LCP NPs) were designed and constructed as an efficient targeted delivery system for combined gene/photothermal therapy to inhibit growth of the triple negative breast tumor (MDA-MB-468) in vitro and in vivo. LCP NPs were functionalized with a bispecific antibody (BsAb) via non-covalent bond specific for methoxy group of PEG (mPEG) on the particle surface. This BsAb is also able to target epidermal growth factor receptor (EGFR) expressed on MDA-MB-468 cells. Such LCP-BsAb NPs loaded with Cell Death (CD)-siRNA and indocyanine green (ICG) were efficiently taken up by MDA-MB-468 cells, significantly inducing cell apoptosis and synergistically suppressing cell proliferation upon irradiation of 808 nm near-infrared laser. These targeted multifunctional LCP NPs more efficiently accumulated in the tumor tissue. The combined RNAi (CD-siRNA) and photothermal (ICG) therapy using the targeted LCP NPs nearly eliminated both small tumors (∼100 mm3) and large tumors (∼500 mm3) in the mouse model. Thus, the well-devised multifunctional LCP NPs are one of the most promising delivery systems for combined and targeted cancer therapy.

Bridging the gap: facilities and technologies for development of early stage therapeutic mAb candidates.

Therapeutic monoclonal antibodies (mAbs) currently dominate the biologics marketplace. Development of a new therapeutic mAb candidate is a complex, multistep process and early stages of development typically begin in an academic research environment. Recently, a number of facilities and initiatives have been launched to aid researchers along this difficult path and facilitate progression of the next mAb blockbuster. Complementing this, there has been a renewed interest from the pharmaceutical industry to reconnect with academia in order to boost dwindling pipelines and encourage innovation. In this review, we examine the steps required to take a therapeutic mAb from discovery through early stage preclinical development and toward becoming a feasible clinical candidate. Discussion of the technologies used for mAb discovery, production in mammalian cells and innovations in single-use bioprocessing is included. We also examine regulatory requirements for product quality and characterization that should be considered at the earliest stages of mAb development. We provide details on the facilities available to help researchers and small-biotech build value into early stage product development, and include examples from within our own facility of how technologies are utilized and an analysis of our client base.