New Leukaemia Drugs
Editorial

Figure 1. Progress in treating children with ALL

There have been considerable progress in treating leukaemias since 1950 when the 1st effective anti-leukaemia drug was developed.  In the Editorial I focus on anti-leukaemia drugs developed over the past 20 years.  I divide my review into sections on acute lymphoblastic leukaemia (ALL), acute myelogenous leukaemia (AML), chronic lymphocytic leukaemia (CLL) and chronic myeloid leukaemia.  Within each section I show progress since 1950, the pace of drug development and highlight 3 drug categories, chemotherapy, targeted therapy and immune therapy.

There is insufficient space to discuss details of the > 50 drugs so I use Tables to indicate, where relevant, mechanisms of action.

Next, I discuss several related issues.  Lastly, I comment on what potential future developments.  In this context I’m reminded of a quote variously attributed to quantum physicist Niels Bohr or baseball catcher Yogi Bera: It’s difficult to make predictions, especially about the future.  But we should also recall that the best way to predict the future is to invent it.

Figure 2.  Progress in treating adults with ALL

Acute lymphoblastic leukaemia

Figures 1 and 2 show progress in ALL therapy in children and adults over several decades.  Progress in children had been remarkable, less so in adults.  Drugs developed to treat ALL in the past 20 years are displayed in Table 1.

Table 1: New drugs for ALL

Nelarabine
Proteosome-inhibitorsBortezomib, carfizomib, ixazomib
TKIsImatinib, dasatinib, nilotinib, ponatinib
BCL-2-inhibitorsVenetoclax
SKY-inhibitorsEntospletinib
TORC-1/-2Pemigatinib
PemigatinibPemigatinib
AntibodiesBlinatumomab, Inotuzumab
CAR-T-cellsTisagenlecleucel, brexucabtagene autoleucel

Acute myelogenous leukaemia

Figure 3. Progress in therapy of AML

Figure 3 show progress in AML therapy over several decades.  Figure 4 displays the timeline of drug development in AML indicating a rapidly accelerating pace of FDA-approvals.    Drugs developed in the past 20 years to treat AML are displayed in Table 2; most are US FDA-approved.

Table 2: New drugs for AML

CPX-351Liposomal cytarabine/daunorubicin
CC-486Azacitidine
FLT3-inhibitorsMidostaurin, Gilteritinib, Quizartinib
IDH2Enasidenib
IDH1Ivosidenib, Olutasidenib
BCL-2Venetoclax
Sonic HedgehogGlasdegib
FGFR2Pemigatinib
AntibodiesGemtuzumab
CAR-T-cellsNone

Chronic lymphocytic leukaemia

Figure 4.  Timeline of drug development in AML

Figure 5 show progress in CLL therapy over several decades focusing on people receiving therapy.  Figure 6 displays a timeline of drug develo

pment in CLL indicating rapidly accelerating FDA-approvals. Drugs developed in the past 20 years to treat CLL are displayed in Table 3.

Table 3. New drugs for CLL

Bendamustine
BTK-inhibitorsIbrutinib, Acalabrutinib, Zanubrutinib, Pirtobrutinib, Orelabrutinib, Nemtabrutinib
BCL-2-inhibitorVenetoclax
PI3K-inhibitorDuvelisib, Idelalisib
AntibodiesObinutuzumab, Rituximab hycela
CAR-T-cellsLisocabtagene maraleucel

Chronic myelogenous leukaemia

Figure 5. Progress in therapy of CLL (only people receiving therapy)

Figure 7 shows the extraordinary progress in CML therapy since introduction of imatinib followed by several other tyrosine kinase-inhibitors.  Figure 8 displays a timeline of drug development in CML.  Drugs developed in the past 20 years to treat CML are displayed in Table 4 most of which are US FDA-approved.  There is no approved immune therapy, perhaps because none is needed.

Table 4. New drugs for CML

nd
Omacetaxine
TKIsImatinib, Dasatinib, Nilotinib, Ponatinib, Bosutinib, Asciminib
AntibodiesNone
CAR-T-cellsNone

Comments

Figure 6.  Timeline of drug development in CLL

These data lead me to comments on several related issues including the long interval between basic research discoveries and 1st drug approval for a specific mechanism of action.  Consider CML where it was > 60 years between discovery of the Ph-chromosome and approval of imatinib.  This interval is substantially briefer for subsequent drugs with the same mechanism of action.  For example, dasatinib, nilotinib, ponatinib, bosutinib  and now asciminib relatively soon after approval of imatinib, gilteritinib and quizartinib after the approval of midostaurin, acalabrutinib and zanubrutinib after approval of ibrutinib and fedratinib, pancritinib and momelotinib relatively soon after approval of ruxolitinib.

Figure 7.  Progress in therapy of CML

Another striking related issue is the accelerating pace of drug approvals illustrated in Figures 4, 6 and 8.  Some new derivative strategies include development of allosteric inhibitors (asciminib in CML) and non-covalent targeted therapies (pirtobrutinib in CLL).  Another important development is the extraordinary rapid recent progress in immune therapies including monoclonal and bi-spcific antibodies and CAR-T-cells after a stagnant 50 years.

But our job is not done. Table 5 displays 5-year leukaemia survivals from the US SEER Registry.  The CLL data includes people not receiving therapy, about one-half the population.  Areas where we need to improve are in adults with ALL and AML and drugs for people failing current strategies.  Use of haematopoietic cell transplants which I have not discussed is an example.

Table 5. US Surveillance, Epidemiology End Results (SEER) 5-year survivals

ALL72%
AML30%
CLL92%
CML70-90%

Figure 8. Timeline of drug development In CML

Lastly, the outcomes I reviewed are mostly from randomized controlled trials done in developed counties which are often unrepresentative of so-called real world results and results in developing countries for several reasons including selection biases, drug availability and economics.  We need to get safe and effective drugs to people who need them. Figure 9 shows that even in the people in the US with CML drug access and compliance are sub-optimal.

Conclusions 

There are many new safe and effective anti-leukaemia drugs accompanied by an accelerating pace of drug approvals.  Much of this progress is driven by use of emerging technologies.  However, we need to get new drugs to people who can benefit.  Overall, there has been substantial progress but the job is not done.

Conflict of Interest

Figure 9.  Comparison of survival in persons with CML between Germany and the US (Hehlmann R. LEUKEMIA 2017; Radivoyevitch T.  LEUKEMIA 2020)

RPG is a consultant to Antengene Biotech LLC; Medical Director, FFF Enterprises Inc.; Speaker for Janssen Pharma and Hengrui Pharma; Board of Directors: Russian Foundation for Cancer Research Support; and Scientific Advisory Board: StemRad Ltd.

Acknowledgement

RPG acknowledges support from the UK National Institute of Health Research (NIHR) Biomedical Research Centre funding scheme.

Funding

None.

Ethics

Not applicable.