Alteration of Physicochemical Properties for Antibody-Drug Conjugates and Their Impact on Stability

Buecheler, Jakob W.; Winzer, Matthias; Weber, Christian; Gieseler, Henning

doi:10.1016/j.xphs.2019.08.006

Cited by 35 publications

(31 citation statements)

References 94 publications

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“…brentuximab vedotin). However, this straightforward approach results in a random linkage of the drug to the antibody and yields heterogeneous mixtures with different drug-to-antibodies-ratios that impact the physicochemical properties, pharmacokinetics, and lot-to-lot reproducibility 42 . At the cost of increasing the complexity, the next generation of antibody-drug conjugates rely on sitespecific bioconjugation strategies such as THIOMABs technology, transglutaminase-mediated conjugations, click chemistry conjugation, bridge cysteine conjugations, glycosyl remodeling, to reduce the problems associated with heterogeneity and to enable antibody-like fragments to improve tumor penetration.…”

Section: Discussionmentioning

confidence: 99%

“…The increase in the drug-antibody ratio has been a classical approach not exempt from drawbacks, since it often affects pharmacokinetics and the increase of hydrophobicity is frequently one of the key factors to be considered. 42,56 To approach this challenge and inspired by a previous work that demonstrated the feasibility of using a nanobody-cyclodextrin conjugate as a site-directed drug delivery system 37 , we envisioned a modular design where the targeting module bears the MBP and the carrier module is maltosylated. As a proof of concept, PEI was functionalized with maltose and with β-cyclodextrin to obtain a multivalent platform that exploits the ability of cyclodextrin to form inclusion complexes with hydrophobic molecules such as chemotherapeutic anticancer drugs 57 and this effect measured as cytotoxicity was dependent on the expression HER2+.…”

Section: Discussionmentioning

confidence: 99%

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Single chain variable fragment fused to maltose binding protein: a modular nanocarrier platform for the targeted delivery of antitumorals

et al. 2021

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Single chain variable fragment fused to maltose binding protein: a modular nanocarrier platform for the targeted delivery of antitumorals

et al. 2021

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“…Modification of payloads with various functional groups, such as amine and thiol groups, to optimize conjugation as well as the impact of DAR, hydrophobicity on ADC clearance and improving conjugation methods to attain a homogenous ADC population, has been the primary focus of research in the field [ 45 , 46 , 47 ]. A high DAR and hydrophobicity entails the risk of immunogenic reactions and rapid clearance rates (further discussed in Section 5 ).…”

Section: Conjugation Chemistry Of Adcsmentioning

confidence: 99%

“…However, there is a risk of immunogenic reactions or faster clearance rates in some cases because of a high DAR [ 46 , 69 ]. Moreover, most of the cytotoxic agents are hydrophobic and the incorporation of many molecules can lead to decreased physical stability, the addition of branched PEG chains, and can increase the hydrophilicity of the linker, which has subsequently proven to have superior effects in vivo [ 47 , 65 , 66 ].…”

Section: Linkersmentioning

confidence: 99%

“…There are certain features that are essential in a cytotoxic payload: high cytotoxicity, low immunogenic effect, stability during storage in preparation and in the circulation, permeability, solubility clearance, and amenability to modification. In terms of hydrophobicity, the formation of a hydrophobic metabolite post intercellular cleavage exerts better blood clearance and safety [ 47 ]. Extreme hydrophobicity of the cytotoxic agent can alter the biological properties of the antibody and can consequently cause aggregation during storage or conjugation [ 47 ].…”

Section: Payloadmentioning

confidence: 99%

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Advances and Limitations of Antibody Drug Conjugates for Cancer

Mckertish

Kayser

2021

Biomedicines

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The popularity of antibody drug conjugates (ADCs) has increased in recent years, mainly due to their unrivalled efficacy and specificity over chemotherapy agents. The success of the ADC is partly based on the stability and successful cleavage of selective linkers for the delivery of the payload. The current research focuses on overcoming intrinsic shortcomings that impact the successful development of ADCs. This review summarizes marketed and recently approved ADCs, compares the features of various linker designs and payloads commonly used for ADC conjugation, and outlines cancer specific ADCs that are currently in late-stage clinical trials for the treatment of cancer. In addition, it addresses the issues surrounding drug resistance and strategies to overcome resistance, the impact of a narrow therapeutic index on treatment outcomes, the impact of drug–antibody ratio (DAR) and hydrophobicity on ADC clearance and protein aggregation.

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Antibody drug conjugates for the treatment of multiple myeloma

et al. 2022

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The treatment landscape of multiple myeloma (MM) has evolved substantially, but it remains largely incurable so new treatment options are required. Antibody drug conjugates (ADCs) are an emerging therapeutic class used in Cancer to deliver targeted therapy. ADCs are composed of three components, an antibody, a chemical linker and a payload which must be chosen carefully to be effective and safe. This alternative mechanism of action to standard treatments makes ADCs an attractive class for further development. However, several ADCs have been investigated but many have not moved further than phase 1 trials, highlighting the challenges in designing an effective and tolerable ADC. Belantamab Mafodotin is currently the only ADC licensed for MM although others are currently under evaluation. Belantamab Mafodotin demonstrated efficacy as monotherapy in triple class exposed patients and combinations are under development which maintain safety with encouraging efficacy particularly at earlier lines of therapy. Retaining an acceptable adverse event profile for ADCs remains vital for their success. Strategies to mitigate ocular events for Belantamab Mafodotin involve lower and less frequent dosing as well as the use of gamma secretase inhibitors. The optimal sequencing of ADCs within the treatment pathway including novel immunotherapies is now under evaluation. 1 | INTRODUCTION Multiple myeloma (MM) is the second most common hematological malignancy in the United States, accounting for 1.8% of all new cancer cases. 1 It is characterized by uncontrolled proliferation of clonal plasma cells, resulting in skeletal lytic lesions, renal impairment, hypercalcemia, and bone marrow failure. The treatment landscape for MM has changed significantly in recent years with new treatment approvals corresponding to improvements in overall survival. Advances in understanding various surface antigens on plasma cells have led to the development of new classes of treatment for MM. These represent a shift to more precise and targeted medicine.Anti-CD38 monoclonal antibodies (mAb) are now routinely incorporated into standard treatments and more recently an antibody drug conjugate (ADC) and two chimeric antigen receptor T cell (CAR-T) therapies have been approved for relapsed refractory MM (RRMM). 2,3 There is also emerging data for bispecific T cell engagers. This review focuses on the development of antibody drug conjugates (ADCs) for MM. ADCs are an emerging class of treatment in hematological malignancies with a number in routine clinical use. Examples include inotuzumab ozogamicin (anti-CD22) for acute lymphoblastic leukemia (ALL), gemtuzumab ozogamicin (anti-CD33) for acute myeloid leukemia (AML), brentuximab vedotin (anti-CD30) for Hodgkin lymphoma and polatuzumab vedotin (anti-CD79a) in combination with bendamustine and rituximab for relapsed diffuse large B cell lymphoma (DLBCL). In MM, one ADC has been approved, Belantamab Mafodotin (anti-B Cell Maturation Antigen [BCMA]).ADCs are highly selective humanized or human mAbs chemically l...

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Alteration of Physicochemical Properties for Antibody-Drug Conjugates and Their Impact on Stability

Cited by 35 publications

References 94 publications

Single chain variable fragment fused to maltose binding protein: a modular nanocarrier platform for the targeted delivery of antitumorals

Single chain variable fragment fused to maltose binding protein: a modular nanocarrier platform for the targeted delivery of antitumorals

Advances and Limitations of Antibody Drug Conjugates for Cancer

Antibody drug conjugates for the treatment of multiple myeloma

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