Combination was well tolerated and allowed
patients to maintain their quality of life vs. patients treated
with abiraterone alone
PROpel Phase III trial results show
clinically meaningful benefit in patients irrespective of
homologous recombination repair gene mutations
AstraZeneca and Merck & Co., Inc., known as MSD outside the
US and Canada, today announced that positive results from the
PROpel Phase III trial showed LYNPARZA® (olaparib) in combination
with abiraterone demonstrated a statistically significant and
clinically meaningful improvement in radiographic progression-free
survival (rPFS) versus current standard-of-care abiraterone as a
1st-line treatment for patients with metastatic
castration-resistant prostate cancer (mCRPC) with or without
homologous recombination repair (HRR) gene mutations.
These results will be presented on February 17 at the 2022
American Society of Clinical Oncology (ASCO) Genitourinary Cancers
Symposium.
Prostate cancer is the second most common cancer in male
patients, causing approximately 375,000 deaths in 2020.1 Patients
with advanced prostate cancer have a particularly poor prognosis
and the five-year survival rate remains low.1,2,3 Approximately
half of patients with mCRPC receive only one line of active
treatment, with diminishing benefit of subsequent therapies.4,5,6,7
HRR gene mutations occur in approximately 20-30% of patients with
mCRPC.8
Fred Saad, Professor and Chairman of Urology and Director of
Genitourinary Oncology at the University of Montreal Hospital
Center and principal investigator in the trial, said: “It is clear
to me that the prognosis for metastatic castration-resistant
prostate cancer (mCRPC) is extremely poor, and many patients are
only able to receive one line of effective therapy. The results of
the PROpel trial, which showed that olaparib in combination with
abiraterone significantly delayed disease progression versus
abiraterone by more than eight months, demonstrate the potential
for this combination to become a new standard of care option in
mCRPC if approved.”
Susan Galbraith, Executive Vice President, Oncology R&D,
AstraZeneca, said: “This LYNPARZA combination has the potential to
afford first-line patients more time without disease progression
while also maintaining their quality of life. The PROpel results
are impressive because active comparator trials set a high bar and,
in this trial, LYNPARZA plus abiraterone showed a significant
clinical improvement when compared to an active standard of care in
patients with metastatic castration-resistant prostate cancer,
regardless of whether they have an HRR gene mutation.”
Roy Baynes, Senior Vice President and Head of Global Clinical
Development, Chief Medical Officer, Merck Research Laboratories,
said: “Results from the PROpel trial showed that LYNPARZA in
combination with abiraterone plus prednisone reduced the risk of
disease progression or death by a third compared to abiraterone
plus prednisone in the first-line setting for patients with
metastatic castration-resistant prostate cancer, regardless of
their biomarker status. We look forward to discussing these
important results with global health authorities as quickly as
possible. We thank the patients, caregivers and health care
providers for participating in this study.”
In a predefined interim analysis, LYNPARZA in combination with
abiraterone reduced the risk of disease progression or death by 34%
versus abiraterone alone (based on a hazard ratio [HR] of 0.66; 95%
confidence interval [CI] 0.54-0.81; p<0.0001). Median rPFS was
24.8 months for LYNPARZA plus abiraterone versus 16.6 for
abiraterone alone.
Results also showed a favorable trend towards improved overall
survival (OS) with LYNPARZA plus abiraterone versus abiraterone
alone, however the difference did not reach statistical
significance at the time of this data cut-off (analysis at 29% data
maturity). The trial will continue to assess OS as a key secondary
endpoint.
Additional data from efficacy endpoints such as time to first
subsequent therapy (TFST), second progression-free survival (PFS2),
objective response rate (ORR), as well as prostate-specific antigen
levels and circulating-tumor-cell counts further support the
treatment benefit of LYNPARZA and abiraterone compared to
abiraterone alone in the overall trial population.
The safety and tolerability of LYNPARZA in combination with
abiraterone was in line with that observed in prior clinical trials
and the known profiles of the individual medicines. There was no
increase in the rate of discontinuation of abiraterone in patients
treated with LYNPARZA in combination with abiraterone, and no
detrimental effect on health-related quality of life versus those
treated with abiraterone alone (FACT-P (Functional Assessment of
Cancer Therapy-Prostate) questionnaire).
Summary of PROpel results
LYNPARZA + abiraterone
(n=399)
Placebo + abiraterone
(n=397)
rPFS by Investigator 1
Number of patients with events
(%)
168 (42)
226 (57)
Median PFS (in months)
24.8
16.6
HR (95% CI) p-value
0.66 (0.54, 0.81) <0.0001
rPFS by BICR2
Number of patients with events
(%)
157 (39)
218 (55)
Median PFS (in months)
27.6
16.4
HR (95% CI) p-value5
0.61 (0.49, 0.74) <0.0001
OS3
Number of patients with events
(%)
107 (27)
121 (30)
Median OS (in months)
NC4
NC
HR (95% CI) p-value
0.86 (0.66, 1.12) 0.2923
PFS2
Number of patients with events (%)
70 (18)
94 (24)
Median (in months)
NC
NC
HR (95% CI) p-value5
0.69 (0.51, 0.94) 0.0184
TFST
Number of patients with events
(%)
183 (46)
221 (56)
Median (95% CI) (in months)
25.0 (22.2, NC)
19.9 (17.1, 22.0)
HR (95% CI) p-value5
0.74 (0.61, 0.90) 0.0040
Objective Response
Rate
Number of evaluable patients6
161
160
Number of patients with responses
(%)
94 (58)
77 (48)
Odds ratio (95% CI)
1.60 (1.02, 2.53)
p-value5
0.0409
rPFS by HRR gene mutation
status7
HRRm
Number of patients randomized
111
115
Number of patients with events
(%)
43 (39)
73 (63)
Median (in months)
NC
13.9
HR (95% CI)
0.50 (0.34, 0.73)
Non-HRRm
Number of patients randomized
279
273
Number of patients with events
(%)
119 (43)
149 (55)
Median (95% CI) (in months)
24.1 (19.6, 27.6)
19.0 (14.3, 21.9)
HR (95% CI)
0.76 (0.60, 0.97)
1. Investigator-assessed PFS data; Interim
analysis with 50% maturity (394 events in 796 patients)
2. Assessed by blinded independent central
review (BICR)
3. OS analysis was done at 29% maturity
(228 events in 796 patients) and boundary for significance 0.001
(2-sided); statistical significance not reached. Survival follow up
continues and further analyses were planned.
4. Not calculable
5. Nominal
6. Patients with measurable disease at
baseline as per RECIST 1.1 criteria, investigator assessment.
7. Exploratory subgroup analysis by HRR
status. The HRRm status of patients in PROpel was determined
retrospectively using results from tumor tissue and plasma ctDNA
HRRm tests. Patients were classified as HRRm if (one or more) HRR
gene mutation was detected by either test; patients were classified
as non-HRRm if no HRR gene mutation was detected by either test; 18
patients did not have a valid HRR testing result from either a
tumor tissue or ctDNA test and were excluded from this subgroup
analysis. The analysis was performed using a Cox proportional
hazards model including terms for treatment group, the subgroup
factor, and a treatment by subgroup interaction.
The most common adverse events (AEs) (greater than or equal to
20% of patients) were anemia (45%), nausea (28%) and fatigue (28%).
Grade 3 or higher AEs were anemia (15%), hypertension (4%), urinary
tract infection (2%), fatigue (1%), decreased appetite (1%),
vomiting (1%), asthenia (1%), back pain (1%), diarrhea (1%).
Approximately 86% of patients treated with LYNPARZA in combination
with abiraterone who experienced AEs remained on treatment at the
time of data cut-off.
In September 2021 at a planned interim analysis, the Independent
Data Monitoring Committee concluded that the PROpel trial met the
primary endpoint of rPFS.
LYNPARZA is approved in the US for patients with HRR
gene-mutated mCRPC (BRCA-mutated and other HRR gene mutations); and
in the EU, Japan and China for patients with BRCA-mutated
mCRPC.
IMPORTANT SAFETY INFORMATION
CONTRAINDICATIONS
There are no contraindications for LYNPARZA.
WARNINGS AND PRECAUTIONS
Myelodysplastic Syndrome/Acute Myeloid Leukemia
(MDS/AML): Occurred in approximately 1.5% of patients exposed
to LYNPARZA monotherapy, and the majority of events had a fatal
outcome. The median duration of therapy in patients who developed
MDS/AML was 2 years (range: <6 months to >10 years). All of
these patients had previous chemotherapy with platinum agents
and/or other DNA-damaging agents, including radiotherapy.
Do not start LYNPARZA until patients have recovered from
hematological toxicity caused by previous chemotherapy (≤Grade 1).
Monitor complete blood count for cytopenia at baseline and monthly
thereafter for clinically significant changes during treatment. For
prolonged hematological toxicities, interrupt LYNPARZA and monitor
blood count weekly until recovery.
If the levels have not recovered to Grade 1 or less after 4
weeks, refer the patient to a hematologist for further
investigations, including bone marrow analysis and blood sample for
cytogenetics. Discontinue LYNPARZA if MDS/AML is confirmed.
Pneumonitis: Occurred in 0.8% of patients exposed to
LYNPARZA monotherapy, and some cases were fatal. If patients
present with new or worsening respiratory symptoms such as dyspnea,
cough, and fever, or a radiological abnormality occurs, interrupt
LYNPARZA treatment and initiate prompt investigation. Discontinue
LYNPARZA if pneumonitis is confirmed and treat patient
appropriately.
Embryo-Fetal Toxicity: Based on its mechanism of action
and findings in animals, LYNPARZA can cause fetal harm. A pregnancy
test is recommended for females of reproductive potential prior to
initiating treatment.
Females Advise females of reproductive potential of the
potential risk to a fetus and to use effective contraception during
treatment and for 6 months following the last dose.
Males Advise male patients with female partners of reproductive
potential or who are pregnant to use effective contraception during
treatment and for 3 months following the last dose of LYNPARZA and
to not donate sperm during this time.
Venous Thromboembolic Events: Including pulmonary
embolism, occurred in 7% of patients with metastatic
castration-resistant prostate cancer who received LYNPARZA plus
androgen deprivation therapy (ADT) compared to 3.1% of patients
receiving enzalutamide or abiraterone plus ADT in the PROfound
study. Patients receiving LYNPARZA and ADT had a 6% incidence of
pulmonary embolism compared to 0.8% of patients treated with ADT
plus either enzalutamide or abiraterone. Monitor patients for signs
and symptoms of venous thrombosis and pulmonary embolism, and treat
as medically appropriate, which may include long-term
anticoagulation as clinically indicated.
ADVERSE REACTIONS—First-Line Maintenance BRCAm Advanced
Ovarian Cancer
Most common adverse reactions (Grades 1-4) in ≥10% of patients
in clinical trials of LYNPARZA in the first-line maintenance
setting for SOLO-1 were: nausea (77%), fatigue (67%),
abdominal pain (45%), vomiting (40%), anemia (38%), diarrhea (37%),
constipation (28%), upper respiratory tract
infection/influenza/nasopharyngitis/bronchitis (28%), dysgeusia
(26%), decreased appetite (20%), dizziness (20%), neutropenia
(17%), dyspepsia (17%), dyspnea (15%), leukopenia (13%), UTI (13%),
thrombocytopenia (11%), and stomatitis (11%).
Most common laboratory abnormalities (Grades 1-4) in ≥25% of
patients in clinical trials of LYNPARZA in the first-line
maintenance setting for SOLO-1 were: decrease in
hemoglobin (87%), increase in mean corpuscular volume (87%),
decrease in leukocytes (70%), decrease in lymphocytes (67%),
decrease in absolute neutrophil count (51%), decrease in platelets
(35%), and increase in serum creatinine (34%).
ADVERSE REACTIONS—First-Line Maintenance Advanced Ovarian
Cancer in Combination with Bevacizumab
Most common adverse reactions (Grades 1-4) in ≥10% of patients
treated with LYNPARZA/bevacizumab compared to a ≥5% frequency for
placebo/bevacizumab in the first-line maintenance setting
for PAOLA-1 were: nausea (53%), fatigue (including asthenia)
(53%), anemia (41%), lymphopenia (24%), vomiting (22%) and
leukopenia (18%). In addition, the most common adverse reactions
(≥10%) for patients receiving LYNPARZA/bevacizumab irrespective of
the frequency compared with the placebo/bevacizumab arm were:
diarrhea (18%), neutropenia (18%), urinary tract infection (15%)
and headache (14%).
In addition, venous thromboembolic events occurred more commonly
in patients receiving LYNPARZA/bevacizumab (5%) than in those
receiving placebo/bevacizumab (1.9%).
Most common laboratory abnormalities (Grades 1-4) in ≥25% of
patients for LYNPARZA in combination with bevacizumab in the
first-line maintenance setting for PAOLA-1 were:
decrease in hemoglobin (79%), decrease in lymphocytes (63%),
increase in serum creatinine (61%), decrease in leukocytes (59%),
decrease in absolute neutrophil count (35%) and decrease in
platelets (35%).
ADVERSE REACTIONS—Maintenance Recurrent Ovarian
Cancer
Most common adverse reactions (Grades 1-4) in ≥20% of patients
in clinical trials of LYNPARZA in the maintenance setting
for SOLO-2 were: nausea (76%), fatigue (including asthenia)
(66%), anemia (44%), vomiting (37%), nasopharyngitis/upper
respiratory tract infection (URI)/influenza (36%), diarrhea (33%),
arthralgia/myalgia (30%), dysgeusia (27%), headache (26%),
decreased appetite (22%), and stomatitis (20%).
Study 19: nausea (71%), fatigue (including asthenia)
(63%), vomiting (35%), diarrhea (28%), anemia (23%), respiratory
tract infection (22%), constipation (22%), headache (21%),
decreased appetite (21%) and dyspepsia (20%).
Most common laboratory abnormalities (Grades 1-4) in ≥25% of
patients in clinical trials of LYNPARZA in the maintenance
setting (SOLO-2/Study 19) were: increase in mean corpuscular
volume (89%/82%), decrease in hemoglobin (83%/82%), decrease in
leukocytes (69%/58%), decrease in lymphocytes (67%/52%), decrease
in absolute neutrophil count (51%/47%), increase in serum
creatinine (44%/45%), and decrease in platelets (42%/36%).
ADVERSE REACTIONS—Advanced gBRCAm Ovarian Cancer
Most common adverse reactions (Grades 1-4) in ≥20% of patients
in clinical trials of LYNPARZA for advanced gBRCAm ovarian
cancer after 3 or more lines of chemotherapy (pooled from 6
studies) were: fatigue/asthenia (66%), nausea (64%), vomiting
(43%), anemia (34%), diarrhea (31%), nasopharyngitis/upper
respiratory tract infection (URI) (26%), dyspepsia (25%), myalgia
(22%), decreased appetite (22%), and arthralgia/musculoskeletal
pain (21%).
Most common laboratory abnormalities (Grades 1-4) in ≥25% of
patients in clinical trials of LYNPARZA for advanced gBRCAm
ovarian cancer (pooled from 6 studies) were: decrease in
hemoglobin (90%), mean corpuscular volume elevation (57%), decrease
in lymphocytes (56%), increase in serum creatinine (30%), decrease
in platelets (30%), and decrease in absolute neutrophil count
(25%).
ADVERSE REACTIONS—gBRCAm, HER2-Negative Metastatic Breast
Cancer
Most common adverse reactions (Grades 1-4) in ≥20% of patients
in OlympiAD were: nausea (58%), anemia (40%), fatigue
(including asthenia) (37%), vomiting (30%), neutropenia (27%),
respiratory tract infection (27%), leukopenia (25%), diarrhea
(21%), and headache (20%).
Most common laboratory abnormalities (Grades 1-4) in ≥25% of
patients in OlympiAD were: decrease in hemoglobin (82%),
decrease in lymphocytes (73%), decrease in leukocytes (71%),
increase in mean corpuscular volume (71%), decrease in absolute
neutrophil count (46%), and decrease in platelets (33%).
ADVERSE REACTIONS—First-Line Maintenance gBRCAm Metastatic
Pancreatic Adenocarcinoma
Most common adverse reactions (Grades 1-4) in ≥10% of patients
in clinical trials of LYNPARZA in the first-line maintenance
setting for POLO were: fatigue (60%), nausea (45%),
abdominal pain (34%), diarrhea (29%), anemia (27%), decreased
appetite (25%), constipation (23%), vomiting (20%), back pain
(19%), arthralgia (15%), rash (15%), thrombocytopenia (14%),
dyspnea (13%), neutropenia (12%), nasopharyngitis (12%), dysgeusia
(11%), and stomatitis (10%).
Most common laboratory abnormalities (Grades 1-4) in ≥25% of
patients in clinical trials of LYNPARZA in the first-line
maintenance setting for POLO were: increase in serum
creatinine (99%), decrease in hemoglobin (86%), increase in mean
corpuscular volume (71%), decrease in lymphocytes (61%), decrease
in platelets (56%), decrease in leukocytes (50%), and decrease in
absolute neutrophil count (25%).
ADVERSE REACTIONS—HRR Gene-mutated Metastatic
Castration-Resistant Prostate Cancer
Most common adverse reactions (Grades 1-4) in ≥10% of patients
in clinical trials of LYNPARZA for PROfound were: anemia
(46%), fatigue (including asthenia) (41%), nausea (41%), decreased
appetite (30%), diarrhea (21%), vomiting (18%), thrombocytopenia
(12%), cough (11%), and dyspnea (10%).
Most common laboratory abnormalities (Grades 1-4) in ≥25% of
patients in clinical trials of LYNPARZA for PROfound were:
decrease in hemoglobin (98%), decrease in lymphocytes (62%),
decrease in leukocytes (53%), and decrease in absolute neutrophil
count (34%).
DRUG INTERACTIONS
Anticancer Agents: Clinical studies of LYNPARZA with
other myelosuppressive anticancer agents, including DNA-damaging
agents, indicate a potentiation and prolongation of
myelosuppressive toxicity.
CYP3A Inhibitors: Avoid coadministration of strong or
moderate CYP3A inhibitors when using LYNPARZA. If a strong or
moderate CYP3A inhibitor must be coadministered, reduce the dose of
LYNPARZA. Advise patients to avoid grapefruit, grapefruit juice,
Seville oranges, and Seville orange juice during LYNPARZA
treatment.
CYP3A Inducers: Avoid coadministration of strong or
moderate CYP3A inducers when using LYNPARZA.
USE IN SPECIFIC POPULATIONS
Lactation: No data are available regarding the presence
of olaparib in human milk, its effects on the breastfed infant or
on milk production. Because of the potential for serious adverse
reactions in the breastfed infant, advise a lactating woman not to
breastfeed during treatment with LYNPARZA and for 1 month after
receiving the final dose.
Pediatric Use: The safety and efficacy of LYNPARZA have
not been established in pediatric patients.
Hepatic Impairment: No adjustment to the starting dose is
required in patients with mild or moderate hepatic impairment
(Child-Pugh classification A and B). There are no data in patients
with severe hepatic impairment (Child-Pugh classification C).
Renal Impairment: No dosage modification is recommended
in patients with mild renal impairment (CLcr 51-80 mL/min estimated
by Cockcroft-Gault). In patients with moderate renal impairment
(CLcr 31-50 mL/min), reduce the dose of LYNPARZA to 200 mg twice
daily. There are no data in patients with severe renal impairment
or end-stage renal disease (CLcr ≤30 mL/min).
INDICATIONS
LYNPARZA is a poly (ADP-ribose) polymerase (PARP) inhibitor
indicated:
First-Line Maintenance BRCAm Advanced Ovarian Cancer
For the maintenance treatment of adult patients with deleterious
or suspected deleterious germline or somatic BRCA-mutated (gBRCAm
or sBRCAm) advanced epithelial ovarian, fallopian tube, or primary
peritoneal cancer who are in complete or partial response to
first-line platinum-based chemotherapy. Select patients for therapy
based on an FDA-approved companion diagnostic for LYNPARZA.
First-Line Maintenance HRD-Positive Advanced Ovarian Cancer
in Combination with Bevacizumab
In combination with bevacizumab for the maintenance treatment of
adult patients with advanced epithelial ovarian, fallopian tube or
primary peritoneal cancer who are in complete or partial response
to first-line platinum-based chemotherapy and whose cancer is
associated with homologous recombination deficiency (HRD) positive
status defined by either:
- a deleterious or suspected deleterious BRCA mutation,
and/or
- genomic instability
Select patients for therapy based on an FDA-approved companion
diagnostic for LYNPARZA.
Maintenance Recurrent Ovarian Cancer
For the maintenance treatment of adult patients with recurrent
epithelial ovarian, fallopian tube, or primary peritoneal cancer,
who are in complete or partial response to platinum-based
chemotherapy.
Advanced gBRCAm Ovarian Cancer
For the treatment of adult patients with deleterious or
suspected deleterious germline BRCA-mutated (gBRCAm) advanced
ovarian cancer who have been treated with 3 or more prior lines of
chemotherapy. Select patients for therapy based on an FDA-approved
companion diagnostic for LYNPARZA.
gBRCAm, HER2-Negative Metastatic Breast Cancer
For the treatment of adult patients with deleterious or
suspected deleterious gBRCAm, human epidermal growth factor
receptor 2 (HER2)-negative metastatic breast cancer who have been
treated with chemotherapy in the neoadjuvant, adjuvant, or
metastatic setting. Patients with hormone receptor (HR)-positive
breast cancer should have been treated with a prior endocrine
therapy or be considered inappropriate for endocrine therapy.
Select patients for therapy based on an FDA-approved companion
diagnostic for LYNPARZA.
First-Line Maintenance gBRCAm Metastatic Pancreatic
Cancer
For the maintenance treatment of adult patients with deleterious
or suspected deleterious gBRCAm metastatic pancreatic
adenocarcinoma whose disease has not progressed on at least 16
weeks of a first-line platinum-based chemotherapy regimen. Select
patients for therapy based on an FDA-approved companion diagnostic
for LYNPARZA.
HRR Gene-mutated Metastatic Castration-Resistant Prostate
Cancer
For the treatment of adult patients with deleterious or
suspected deleterious germline or somatic homologous recombination
repair (HRR) gene-mutated metastatic castration-resistant prostate
cancer (mCRPC) who have progressed following prior treatment with
enzalutamide or abiraterone. Select patients for therapy based on
an FDA-approved companion diagnostic for LYNPARZA.
Please click here for complete Prescribing Information,
including Patient Information (Medication Guide).
Notes
Metastatic castration-resistant prostate cancer
Metastatic prostate cancer is associated with a significant
mortality rate.3 Development of prostate cancer is often driven by
male sex hormones called androgens, including testosterone.9
In patients with mCRPC, their prostate cancer grows and spreads
to other parts of the body despite the use of androgen-deprivation
therapy to block the action of male sex hormones.10 Approximately
10-20% of patients with advanced prostate cancer will develop
castration-resistant prostate cancer (CRPC) within five years, and
at least 84% of these patients will have metastases at the time of
CRPC diagnosis.10
Of patients with no metastases at CRPC diagnosis, 33% are likely
to develop metastases within two years.11 Despite the advances in
mCRPC treatment in the past decade with taxane and new hormonal
agent (NHA) treatment, once patients failed first line therapy, the
treatment effect of second line anti-cancer therapy diminished
significantly hence there is high unmet medical need in this
population.10,12,13,14
PROpel PROpel is a randomized, double-blind, multi-center
Phase III trial testing the efficacy, safety, and tolerability of
LYNPARZA versus placebo when given in addition to abiraterone in
men with mCRPC who had not received prior chemotherapy or NHAs in
the 1st-line setting.
Men in both treatment groups will also receive either prednisone
or prednisolone twice daily. The primary endpoint is rPFS and
secondary endpoints include OS, PFS2, and TFST.
For more information about the trial please visit
ClinicalTrials.gov.
LYNPARZA LYNPARZA (olaparib) is a first-in-class PARP
inhibitor and the first targeted treatment to block DNA damage
response (DDR) in cells/tumors harboring a deficiency in HRR, such
as those with mutations in BRCA1 and/or BRCA2, or those where
deficiency is induced by other agents (such as NHAs).
Inhibition of PARP proteins with LYNPARZA leads to the trapping
of PARP bound to DNA single-strand breaks, stalling of replication
forks, their collapse and the generation of DNA double-strand
breaks and cancer cell death. In the PROpel Phase III trial,
LYNPARZA is combined with abiraterone, an NHA which targets the
androgen receptor (AR) pathway.
Androgen receptor signalling engages a transcriptional program
that is critical for tumor cell growth & survival in prostate
cancer.15,16 Preclinical models have identified interactions
between PARP signalling and the AR pathway which support the
observation of a combined anti-tumor effect of LYNPARZA and NHAs,
like abiraterone, in both HRR deficient and HRR proficient prostate
cancer.17,18,19
The PARP1 protein has been reported to be required for the
transcriptional activity of androgen receptors; therefore
inhibiting PARP with LYNPARZA may impair the expression of androgen
receptor target genes and enhance the activity of NHAs.15,18,20
Additionally, it is thought that abiraterone may alter/inhibit the
transcription of some HRR genes which may induce HRR deficiency and
increase sensitivity to PARP inhibition.17,19,21,22
LYNPARZA is currently approved in a number of countries across
PARP-dependent tumor types with defects and dependencies in the DDR
pathway. It is approved for the maintenance treatment of
platinum-sensitive relapsed ovarian cancer as a monotherapy and in
combination with bevacizumab for the 1st-line maintenance treatment
of BRCA-mutated (BRCAm) and homologous recombination deficiency
(HRD) positive advanced ovarian cancer, respectively.
LYNPARZA is also approved for BRCAm, HER2-negative metastatic
breast cancer (in the EU this includes locally advanced breast
cancer); for germline BRCAm metastatic pancreatic cancer, and for
HRR gene-mutated metastatic castration-resistant prostate cancer
(BRCAm only in the EU and Japan).
LYNPARZA, which is being jointly developed and commercialized by
AstraZeneca and Merck, is the foundation of AstraZeneca's
industry-leading portfolio of potential new medicines targeting DDR
mechanisms in cancer cells.
The AstraZeneca and Merck strategic oncology
collaboration In July 2017, AstraZeneca and Merck & Co.,
Inc., Kenilworth, NJ, US, known as MSD outside the US and Canada,
announced a global strategic oncology collaboration to co-develop
and co-commercialize LYNPARZA (olaparib), the world’s first PARP
inhibitor, and selumetinib, a mitogen-activated protein kinase
(MEK) inhibitor, for multiple cancer types.
Working together, the companies will develop LYNPARZA and
selumetinib in combination with other potential new medicines and
as monotherapies. Independently, the companies will develop
LYNPARZA and selumetinib in combination with their respective PD-L1
and PD-1 medicines.
AstraZeneca in oncology AstraZeneca is leading a
revolution in oncology with the ambition to provide cures for
cancer in every form, following the science to understand cancer
and all its complexities to discover, develop and deliver
life-changing medicines to patients.
The Company's focus is on some of the most challenging cancers.
It is through persistent innovation that AstraZeneca has built one
of the most diverse portfolios and pipelines in the industry, with
the potential to catalyze changes in the practice of medicine and
transform the patient experience.
AstraZeneca has the vision to redefine cancer care and, one day,
eliminate cancer as a cause of death.
About AstraZeneca AstraZeneca is a global, science-led
biopharmaceutical company that focuses on the discovery,
development and commercialization of prescription medicines in
Oncology, Rare Diseases and BioPharmaceuticals, including
Cardiovascular, Renal & Metabolism, and Respiratory &
Immunology. Based in Cambridge, UK, AstraZeneca operates in over
100 countries, and its innovative medicines are used by millions of
patients worldwide. For more information, please visit
www.astrazeneca-us.com and follow us on Twitter @AstraZenecaUS.
References 1. IARC. Cancer Today – Estimated number of
new cases in 2020, worldwide, both sexes, all ages. Available at
https://gco.iarc.fr/today/home. Accessed January 2022. 2. Moreira
D, et al. Predicting Time From Metastasis to Overall Survival in
Castration-Resistant Prostate Cancer: Results From SEARCH. Clin
Genitourin Cancer. 2017;15(1):60-66.e2. 3. Chowdhury S, et al.
Real-world outcomes in first-line treatment of metastatic
castration-resistant prostate cancer: the prostate cancer registry.
Target Oncol. 2020;15(3):301-15. 4. George DJ, et al. Treatment
Patterns and Outcomes in Patients With Metastatic
Castration-resistant Prostate Cancer in a Real-world Clinical
Practice Setting in the United States. Clin Genitourin Cancer.
2020; 18(4):284-294. 5. de Bono JS, et al. Subsequent Chemotherapy
and Treatment Patterns After Abiraterone Acetate in Patients with
Metastatic Castration-resistant Prostate Cancer: Post Hoc Analysis
of COU-AA-302. Eur Urol. 2017;71(4):656-664. 6. Ryan CJ, et al.
Abiraterone acetate plus prednisone versus placebo plus prednisone
in chemotherapy-naive men with metastatic castration-resistant
prostate cancer (COU-AA-302): final overall survival analysis of a
randomised, double-blind, placebo-controlled phase 3 study. Lancet
Oncol. 2015;16(2):152-160. 7. Beer TM, et al. Enzalutamide in Men
with Chemotherapy-naïve Metastatic Castration-resistant Prostate
Cancer: Extended Analysis of the Phase 3 PREVAIL Study. Eur Urol.
2017;71(2):151-154 8. Mateo, J, et al (2015). DNA-repair defects
and olaparib in metastatic prostate cancer. The New England Journal
of Medicine, 373(18), pp.1697 - 1708. 9. Cancer.Net. Treatment of
metastatic castration-resistant prostate cancer. Available at
www.cancer.net/research-and-advocacy/asco-care-and-treatment-recommendations-patients/treatment-metastatic-castration-resistant-prostate-cancer.
Accessed January 2022. 10. Kirby, M, et al. Characterising the
castration-resistant prostate cancer population: a systematic
review. International Journal of Clinical Practice,
2021;65(11):1180-1192. 11. Smith MR, et al. Natural history of
rising serum prostate-specific antigen in men with castrate
nonmetastatic prostate cancer. J Clin Oncol. 2005;23(13):2918-25.
12. UroToday. What is Changing in Advanced Prostate Cancer?
Available at
https://www.urotoday.com/journal/everyday-urology-oncology-insights/articles/122176-what-is-changing-in-advanced-prostate-cancer.html.
Accessed January 2022. 13. Liu J, et al. Second-line Hormonal
Therapy for the Management of Metastatic Castration-resistant
Prostate Cancer: a Real-World Data Study Using a Claims Database.
Scientific Report. 2020;10(4240):2020. 14. UroToday. Beyond
First-line Treatment of Metastatic Castrate-resistant Prostate
Cancer. Available at
https://www.urotoday.com/library-resources/mcrpc-treatment/114592-beyond-first-line-treatment-of-metastatic-castrate-resistant-prostate-cancer.html.
Accessed January 2022. 15. Schiewer MJ, et al. Dual roles of PARP-1
promote cancer growth and progression. Cancer Discov.
2012;2(12):1134-1149. 16. Schiewer MJ & Knudsen KE. AMPed up to
treat prostate cancer: novel AMPK activators emerge for cancer
therapy. EMBO Mol Med. 2014;6(4):439-441. 17. Li L, et al. Androgen
receptor inhibitor–induced “BRCAness” and PARP inhibition are
synthetically lethal for castration-resistant prostate cancer. Sci
Signal. 2017; 10(480):eaam7479. 18. Polkinghorn WR, et al. Androgen
receptor signaling regulates DNA repair in prostate cancers. Cancer
Discov. 2013;3(11):1245-1253. 19. Asim M, et al. Synthetic
lethality between androgen receptor signalling and the PARP pathway
in prostate cancer. Nat Commun. 2017;374(8). 20. Ju B-G, et al. A
topoisomerase IIbeta-mediated dsDNA break required for regulated
transcription. Science. 2006;312(5781):1798-1802. 21. Goodwin JF,
et al. A hormone-DNA repair circuit governs the response to
genotoxic insult. Cancer Discov. 2013;3(11):1254-1271. 22. Tarish
FL, et al. Castration radiosensitizes prostate cancer tissue by
impairing DNA double-strand break repair. Sci Transl Med. 2015;
7(312):312re11.
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