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Pola's three major offensive weapons (2) - CD79b innovative target accurately broke the game, DLBCL the world's first "magic bullet" to lead the new channel

 Last Update: 2022-09-15
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Guide

The opening of every unknown world has been bravely foreseen by pioneers; Every journey of stealth in the dark of night, there are lighters fearlessly leading the way

The "Pola Three Offensive Weapons" series of articles analyzed Pola's payload drug MMAE in the last period, MMAE can enter nearby tumor cells through the bystander effect, repeatedly and continuously kill tumor cells, and let us see the dawn

This issue is a question

Targets are critical to ADCs, how do you choose between a wide range of targets when designing a hematologic tumor ADC drug? Based on the target expression level may affect ADC efficacy, ADCs generally require target detection to guide clinical applications, do all ADC drugs require target detection? In recent years, ADC drug research has become more and more popular, what is the special secret of the CD79b target selected in the development and the drug Pola that targets CD79b?

Star solution expert

ADC targets are difficult to choose, and many problems need to be solved

The use of small molecule chemotherapy drugs is greatly limited

Figure 1 Comparison of treatment windows of small molecule chemotherapy drugs and ADCs

In the process of ADC drug development, the choice of target is the key

Layer by layer, the CD79b target stands out

In addition to the well-known CD20 targets, there are many targets that are expressed only on B cell and B cell tumors, and researchers have explored

Fig.

Studies of antitumor activity in vitro have demonstrated that the efficacy of ADCs targeted with MC-vc-MMAE that targets CD22 and CD79b is not affected by target expression levels, and the population will be treated more extensively ^[⁵^].

Fig.
3 Relationship between efficacy of anti-CD22 ADC and anti-CD79b ADC and target expression level

Further studies have shown that half of the effective doses against CD79b-vc-MMAE (Pola) are lower than anti-CD22-vc-MMAE (Pina),^[⁶^] meaning that Pola may have a wider
therapeutic window.

Figure 4 Efficacy response of Pina and Pola at different doses

The Phase II ROMULUS study also suggested that Pola was more effective, with a longer duration of remission (DOR) than Pina and a better benefit-risk profile, with a lower incidence of Pola than Pola in both Grade 5 adverse events (AE) and severe adverse events (SAE
^).
After layers of screening, CD79b became the preferred
treatment target for non-Hodgkin lymphoma (NHL).

Fig.
5 Pina and Pola combined with rituximab for the treatment of R/ R DLBCL and FL DOR

Figure 6 AE cases of Pola and Pina combined with rituximab in the treatment of R/R DLBCL

Demystify the CD79b target and target THE CD79b ADC Pola has unlimited prospects

CD79 is a heterodimer molecule involved in signal transduction in the components of the B cell receptor (BCR), consisting of two peptide chains cd79a and CD79b (Igα and Igβ, respectively), with a high degree of specificity of the B cell lineage, high expression on a variety of B cell NHL and chronic lymphocytic leukemia B cells, with a wide range of mechanisms of action to kill B cell ^{tumors [}⁸].
^]
。
At the same time, preclinical studies have also verified that CD79b as a binding site is more efficient than targeting CD79a^[⁹^], so CD79b becomes an ideal therapeutic target for the ADC mechanism of action, which can be transported to the protease-rich lysosomal-like compartment through exquisite endocytosis.
This effectively delivers the loaded drug and causes targeted cytotoxic killing ^[^10].

Figure 7 CD79b is the BCR component

Both in vitro and in vivo transplant tumor models suggested that the cause of vc-MMAE ADC drug (Pola) resistance targeting CD79b did not come from the downregulation of the target or the internalization efficiency of the target, and the drug-resistant transplant tumor could still maintain the expression level of the target^[¹¹^]. Genetic analysis of the oligonucleotide microarray technique for transplant tumors showed that only the P-gp gene was upregulated by more than one order of magnitude in the resistant strain^[11], and the expression level was about 100 times that of the parent cell line, which was also verified
in the flow cytometry analysis.

The primary driver of acquired drug resistance is P-gp overexpression, which is thought to be associated with chemotherapy resistance ^[11].

Figure 8 The expression levels of CD22 and CD79b on the surface of tumor cells were similar in the original and drug-resistant strains by flow cytometry

Figure 9 P-gp expression levels
on the surface of drug-resistant cell lines measured by flow cytometry.

The original strain is almost not expressed, and the resistant strain is highly expressive

With the unique advantage of precision and potency, not being resistant due to target downregulation, the GO29365 study, a clinical trial of CD79b-targeted ADC Pola in relapsed refractory (R/R) DLBCL populations that are not suitable for transplantation, showed extraordinary results, with the Pola-BR group significantly improving the patient's complete response (CR) rate (40.
0% vs 17.
5%); P=0.
026) and the best CR rate (57.
5% vs 20%)^[^12,13^].

After a median follow-up of 22.
3 months, Pola-BR further extended progression-free survival (PFS, 9.
5 vs 3.
7 months; P<0.
001) and overall survival (OS, 12.
4 months vs 4.
7 months; P=0.
002), and reduces the risk of death by 58% ^[12,13^].

In addition, a randomized controlled cohort biomarker analysis showed that neither tumor remission nor PFS/OS benefit was associated with CD79b expression levels (P=0.
69), and the efficacy of Pola was not affected by CD79b expression levels ^[12].

CD79b expression level analysis showed that CD79b expression was detectable by immunohistochemistry (IHC) in 96.
4 percent of patients, and parallel RNA testing from IHC-negative samples in three other patients also showed positive CD79b expression, suggesting that IHC needs to pay attention to detection sensitivity or false-negativeness ^[12].

Figure 10 Analysis of PFS, OS, and CD79b protein expression in patients

This finding was also validated in a Phase Ib/II study of Pola treating patients with new-treated DLBCL, GO29044 ^[¹⁴
].

Exploratory biomarker analysis showed that tumor samples from all patients were positive for IHC and RNA CD79b, and there was no correlation between tumor lesion reduction and PFS and CD79b expression levels ^[14].

Figure 11 Analysis of tumor remission and PFS and CD79b protein expression levels in patients

Based on the above study data, Pola treatment of DLBCL does not appear to require CD79b target detection to guide clinical applications, and DLBCL patients should not be excluded from Pola treatment because of low CD79b target expression
.

With its advantages of good safety, considerable efficacy, and unaffected by target expression levels, Pola is expected to play a pivotal role in the first-line and posterior treatment of
DLBCL.

Star Interpretation Quotes

Cancer Hospital of Tianjin Medical University

Professor Zhang Huilai

ADC drugs have made considerable progress in the past 10 years, researchers pay special attention to the selection of targets, CD79b is the preferred target for blood tumors obtained after layers of screening
.

Since the surface of tumor cells often specifically expresses some disease diagnostic antigens, or the antigen expression level has a limiting effect on the binding ability and therapeutic ability of antibodies, many ADC drugs in the past have required target detection to guide clinical applications
.

Two Phase IB/II clinical studies, GO29365 and GO29044, showed that IHC or RNA analysis was CD79b positive in patients who were not screened as the admission criteria, and Pola efficacy was not related to the target expression level, suggesting that their later clinical development did not require further target detection of patients to screen patients, and it is believed that patients in future clinical practice regardless of CD79b expression level are likely to benefit from Pola treatment regimens
。
It is expected that the launch of Pola will bring accessible treatment options to China's DLBCL and benefit more Chinese patients
.

Affiliated Cancer Hospital of Fudan University

Professor Tao Rong

ADC drugs combine the selectivity of targeted therapy with the cytotoxic effects of chemotherapy, leading patients towards more precise immunotherapy
.

Cd79b's effectiveness in both lysable and non-lysable connectors and its better benefit-risk profile set it apart
from its competitors during ADC drug development with a wide range of targets in B-cell tumors.

ADC Pola, which targets CD79b, is a rising star for its leading molecular design and solid clinical exploration
.

With the good safety and considerable efficacy shown in the GO29365 study and the global phase III confirmatory POLARIX study, as well as the advantage that the clinical treatment effect is not affected by the target expression level, Pola has broad applications and further exploration prospects in the field of hematological tumors
.

"Magic Bullet" Pola boosts the DLBCL treatment station to a new height, MMAE, CD79b target, crackable connector behind the three major offensive weapons in turn, the next issue is about to unveil the mystery of the cleavable connector, not to be seen!

Zhang Huilai Professor

Doctor of Oncology, Chief Physician, Doctoral Supervisor
He is currently the director of the Department of Lymphoma Internal Medicine, Cancer Hospital of Tianjin Medical University
His research interests include molecular diagnosis and individualized treatment of malignant lymphoma
Vice Chairman of the Lymphoma Professional Committee of the Chinese Anti-Cancer Association
Member of the Standing Committee of the Lymphoma Expert Committee of the Chinese Society of Clinical Oncology (CSCO).
Member of the Lymphoma Group of the Oncology Branch of the Chinese Medical Association
Vice Chairman of the Internal Oncology Branch of the Chinese Medical Promotion Association
Vice Chairman of the Lymphatic Disease Committee of the Chinese Medical Education Association
Vice Chairman of the Lymphoma Professional Committee of the Chinese Geriatric Health Care Association
Chairman of the Tumor Clinical Chemotherapy Committee of Tianjin Anti-Cancer Association
Vice Chairman of Tianjin Hematology Quality Control Center
Vice President of Hematologist Branch of Tianjin Medical Doctor Association
He has won 1 second prize and 3 third prizes of Tianjin Science and Technology Progress Award, and has presided over and participated in a number of National Natural Science Foundation projects and provincial and ministerial scientific research projects
.

Currently, he is the associate editor of "Cancer Pharmacy", "Chinese Journal of Hematology", "Leukemia / Lymphoma", "Chinese Oncology Clinic", "Hematological Oncology", "Blood Research", "Discover Oncology" and other domestic and foreign journals and magazines, as the first or corresponding author in Blood, J Exp Med, JITC, Leukemia, CTM, AJH, BJH, Blood Adv, Front Oncol, Hematol Oncol, Int J Cancer and other international professional magazines, as well as The China series of magazines and national core journals have published more than 70 articles
.

Won the 4th "Famous Doctor of the Country , Excellent Style" Award
.

Professor Tao Rong

Ph.
D.
, Chief Physician
Director of the Department of Lymphoma, Fudan University Affiliated Cancer Hospital
Member of Shanghai Hematology Specialist Committee, Deputy Leader of Lymphoma Group
Member of hematology branch of Shanghai Medical Doctor Association
Member of the Hematology Branch of Shanghai Anti-Cancer Association
Member of Shanghai Clinical Research Ethics Committee
Standing Committee Member of Translational Medicine Special Committee of China Medical Education Association

He is mainly engaged in basic and clinical research on lymphoma, and has in-depth clinical research
on the diagnosis and treatment of NK/T cell lymphoma, peripheral T cell lymphoma, and high-risk diffuse large B-cell lymphoma.

References:

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Drug Discov Today Technol.
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lona Pysz, et al.
Cytotoxic Payloads for Antibody–Drug Conjugates, 2019, pp.
1-30

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Polson AG, et al.
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Mol Cancer Ther.
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2019 May; 6(5):e254-e265

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Rita Assi, et al.
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2021 Mar; 3(1): 21–26

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Polson AG, et al.
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Hammood M, et al.
Pharmaceuticals (Basel).
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Yu SF, et al.
Clin Cancer Res.
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Sehn LH, et al.
J Clin Oncol.
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Sehn LH, et al.
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Past period review

The mystery of the star solution | Professor Zhao Weiying and Professor Liu Yanyan: How to break through the R/R DLBCL problem? Chinese and foreign experience unlocks new solutions

Professor Zhu Jun and Guo Ye: Pola's three major offensive tools (1) - the MMAE bystander effect lays a mechanical foundation for breaking through the heterogeneity of DLBCL

The mystery of the star solution | Professor Ma Jun: The super classic effect, the more the level of healing, 1L DLBCL treatment is ushering in a new standard

Editors: Evelyn, Chole Typography: Moly Executive: Wenting

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