Carcinoma, Non-Small-Cell Lung Clinical Trial
Official title:
The Treatment of Advanced Lung Cancer With Dribbles Antigen by Targeting
Malignant tumor has become the leading cause of death in humans, and the number one killer
in malignant tumor is the lung cancer. Intensifying environmental pollution comes with
rising of the incidence of lung cancer and the high mortality,what's the worst that the
5-year survival rate is only about 15%, accounting for first place in the malignant tumors,
Exploiting for novel antitumor technology and products comes to arrest growing attention of
the governments and businesses because of the uneffectively curbing of tumor threat to
people's life and health on conventional three treatments (surgery, radiotherapy and
chemotherapy). Biological and immunotherapy was voted to one of the ten big breakthrough in
2013 by Science magazine, and considered as a new development direction for cancer treatment
in the 21st century.
The existing immune treatment mainly includes: adoptive immune therapy, tumor vaccine
therapy, immune checkpoint-antibody therapy and other auxiliary therapy, and the adoptive
immunotherapy was researched and developeded former in addition the most mature treatment
among these therapies.
Recently, Dr Hu Hong - Ming's team put forward an innovative cancer treatment strategy:
using of autophagy role to capture tumor antigen for preparation of tumor vaccine. In this
strategy, the blocking proteasome activity of in vitro cultured tumor cells dealed with
Bortezomib (proteasome inhibitors) causes enrichment of short-lived protein (SLiPs) and
misfolded proteins (DRiPs) in autophagosome,called DRibbles corpuscle. Tumor vaccine maded
from collecting these DRibbles corpuscle preparation as, also known as the DRibble vaccine.
At present, clinical research has been carried out about Dribble liver cancer vaccine unit
with DC - CIK therapy in liver cancer in the second hospital of Nanjing nearly four
years,and more than 300 cases has been completed. Clinical research results show that
Dribble vaccine has good security, producing stronger immune response compared with the
DC-CIK therapy alone. But it is still no cognization for the efficacy and safety of DC-CIK
joint DRibble lung cancer vaccine in China, whether it is better than the current DC - CIK
immune therapy, needed for further clinical research and expected to provide a better immune
treatment for NSCLC patients.
Malignant tumor has become the leading cause of death in humans, and the number one killer
in malignant tumor is the lung cancer. Intensifying environmental pollution comes with
rising of the incidence of lung cancer and the high mortality,what's the worst that the
5-year survival rate is only about 15%, accounting for first place in the malignant tumors,
Exploiting for novel antitumor technology and products comes to arrest growing attention of
the governments and businesses because of the uneffectively curbing of tumor threat to
people's life and health on conventional three treatments (surgery, radiotherapy and
chemotherapy). Biological and immunotherapy was voted to one of the ten big breakthrough in
2013 by Science magazine, and considered as a new development direction for cancer treatment
in the 21st century.
The existing immune treatment mainly includes: adoptive immune therapy, tumor vaccine
therapy, immune checkpoint-antibody therapy and other auxiliary therapy, and the adoptive
immunotherapy was researched and developeded former in addition the most mature treatment
among these therapies. The adoptive immunotherapy has been carried out in many units
primarily is the autologous DC - CIK immunotherapy,which called the Dendritic cells
(Dendritic cells, DC) and Cytokine Induced Killer cells (Cytokine Induced Killer, CIK)
immunotherapy. The principle of this technology is: separating of monocytes and lymphocytes
of human peripheral blood, then ugmentated and activated by a variety of cytokines in vitro
(e.g., IFN - gamma, IL - 1, IL - 2, anti - CD3 mAb) to a mixed lymphocyte with antigen
presenting and broad-spectrum function of killing tumor cells. The amplifying activated
DC-CIK intravenous back to patients, releasing of active substances such as CIK cells
perforin,and grain enzyme B to tumor cells after combining with the tumor cells in the body,
which dissolves the tumor cells.Meanwhile the secreting of a variety of cytokines, such as
IL - 2, IFN - gamma and TNF alpha, improves the body's immune function, and gives the role
of anti-tumor function.
Existing literature report and our previous study in biological treatment center showed that
good safety, small side effects and good tolerance for the vast majority of patients. In
curative effect, the current report reveals DC-CIK technology has a good curative effect
maidly on leukemia, lymphoma, ovarian cancer, stomach cancer, etc., except for lung
cancer.It could because of the complex lung cancer tumor antigen,or weak tumor specific T
cell response. How to improve the effectiveness of the presented lung cancer antigen and
stimulate stronger tumor specific T cell response needs to be addressed in improving the
curative effect of the lung cancer immunotherapy.
In recent years checkpoint point antibody therapy has a breakthrough in tumor immunotherapy,
including CTLA-4, PD - 1 and PD - L1. a number of clinical studies revealed the therapy of
PD - 1 and PD - L1 antibody for advanced NSCLC, especially in lung squamous carcinoma has
good treatment effect, and the disease objective response rate achieve 10-23%. Autologous
DC/CIK therapy has been widely carried out in domestic,and has a good security proved by
many clinical practice.As the lack of effective tumor antigen, there are no large
randomized, double-blind study confirm its function in extending patient survival and
preventing tumor progression so far. Some hospitals adopted the tumor cell lysis solution or
single molecule protein peptide/DC united CIK technology, which means to load tumor cell
lysis or single molecule protein peptide as a tumor antigen to DC unite with in vitro
induced CIK at the same time.When compared to CIK therapy alone, the unit therapy can not
only non-specificly damage tumor,but also induce the body to produce tumor-specific immune
response.However most of the tumor antigens contained in tumor cell lysis are longevity
protein that cannot be effectively intaken by DC,leading to limited effective antigen
presented by DC to T lymphocyte. In addition, the tumor antigen longevity protein can exist
for a long time in the natural growth of tumor cells, and can be recognized by the patients
for its own organization,therefore immune tolerance inhibites the immune response affecting
the effect of killing tumor. Single molecule protein polypeptide only induce specific immune
response to a single or a few tumor antigen, not the mutatd tumor antigen,resulting in
escape of tumor. We need to develop new cell treatments because of autologous DC/CIK therapy
can not produce effective immune response ,for providing a new aiternative candidate to
unite checkpoint antibody therapy in the future.
Recently, Dr Hu Hong - Ming's team put forward an innovative cancer treatment strategy:
using of autophagy role to capture tumor antigen for preparation of tumor vaccine. In this
strategy, the blocking proteasome activity of in vitro cultured tumor cells dealed with
Bortezomib (proteasome inhibitors) causes enrichment of short-lived protein (SLiPs) and
misfolded proteins (DRiPs) in autophagosome,called DRibbles corpuscle. Tumor vaccine maded
from collecting these DRibbles corpuscle preparation as, also known as the DRibble
vaccine.Our early studies have suggested that the DRibble tumor vaccines are more powerful
than the tumor cell vaccine, because the whole tumor cell vaccine does not contain easily
degradated short-lived proteins which cannot be cross presented to DC efficiently. These
short-lived protein avoid being degradated by the proteasome in the DRibble vaccine, and
packaged into autophagosome vesicles with double membrane structure. These vesicles contain
endogenous risk signaling molecules (such as HSP90, HMGB1, etc.), can effectively trigger
the congenital immune response. Therefore, when co-culture with once DRibble vaccine,DC can
effectively intake DRibble vaccine and presenting tumor related antigen to the DC surface,
combining with MHC molecules to activate T cells, resulting in the immune response. Compared
with whole lung cancer vaccine, DRibble lung cancer vaccines can provide a wider range of
tumor associated antigen, make the body no longer keep the tolerance for lack of cross
presented, which can cause strong immune response. Dr Hu Hong Ming's team have also found
that allogeneic Dribble can induce equally effective immune response compare with autologous
tumor cells DRibble vaccine and tumor regression, the result has been confirmed in multiple
tumor models. Due to the lack of classic MHC molecules,DRibble vaccine proteins can be
rapidly degradated by DC, and allogeneic DRibble vaccine would not induce adverse effects
due to the induction of allograft immune response, remaindering it's safety and efficacy.
DRibble surface have a large number of target molecular ligands of DC,directely combine with
xDC cells with high expression CLEC9A on surface. xDC cells can efficiently cross presente
antigen to DC, thus can improve the efficiency of presenting DRibble antigen. Besides,
immune response induce by DRibble have immune memory and identify a wide variety of tumor
specific antigen, it will amplificate palying against tumor cells regeneration and prevent
tumor escape when stimulated again.By Providence cancer centers in the United States for
nearly 10 years of research, the safety of the DRibble has been fully validated by Ⅰ/Ⅱ
clinical trials.
Based on the above research foundation, our project intends to carry out the following
research: 1. The curative effect and the influence of the overall survival of late-stage
NSCLC patients after receivie new DRibble vaccine, and compared with the existing DC/CIK
therapy efficacy, 2. Further study the mechanism of Dribble vaccine therapy effects on human
lung cancer cells, system analysis and evaluate the clinical curative effect and promotion
value.
Research objects: this study intends to include ⅢA/ⅢB/Ⅳ period non-small cell lung cancer
without radical prostatectomy (about 60% of the total number), patients who received 2-6
courses of chemotherapy, accept or not accept radiation therapy and disease control stage.
Selected patients were randomly divided into new immunotherapy and conventional DC/CIK
treatment group.
Therapeutic schedule: This trial of allogeneic DRibble vaccine unite with DC/CIK or DC/CIK
alone for Treatment of Stage IIIA or B NSCLC. Two arms will be studied. 30 patients will be
randomized to arm 1 and 2.
Arm1: DRibble vaccine with DC/CIK(The experimental group) Arm2: DC/CIK(The control group)
Methods and procedures
1. Hospital ethics committee approval.
2. Recruting the appropriate patients according to the inclusion criteria and exclusion
criteria .
3. Sign the patients informed consent
4. The preparation of DRibble lung cancer vaccines
5. Blood samples collection: collecte of 10ml patients peripheral blood, separate PBMC as
before treatment reference specimens.
6. Day 1: DRibble group guided by ultrasound in patients with inguinal lymph nodes under
the vaccine of inject DRibble, the control group no injections
7. Day8: collecte 50 ml peripheral blood and separate monocytes and lymphocytes
8. Intensify immune cells amplification (biological treatment center) : using CD3
antibodies activation, IL - 2 promotes lymphocytes proliferation for the killing
cells;GM-CSF induce mononuclear cells differentiation for DC, joint immune treatment
group to DRibble vaccine co-culture with DC cells for 24h in Dribble unit with DC/CIK
group.
9. Identification of immune cell (clinical laboratory, biological treatment center) :
counting cell number, cell activity, the surface markers.
10. Detection of Immune cells microbial (clinical laboratory, biological treatment center)
: bacteria, mycoplasma and endotoxin.
11. 20-22 days: immune cells back to patients: physiological saline washing cells, venous
return after suspension, within a period of treatment by several times.
12. 55 days: collecte 10 ml peripheral blood, after the separation of PBMC in vitro induced
to DC, cocultivate with DRibble and subcutaneous injection at 60th day.
13. Day 75: collecte 10 ml peripheral blood, separate PBMC and detecte T cell immune
response ability.
System evaluation the therapeutic effect and promotion value of Dribble: 1.The clinical
evaluation of curative effect: comparing the experimental group and control group of
progression-free survival and overall survival, drawing survival curve, and statistically
analyzed. 2. evaluating DRibble immune response , comparing the first time collected
peripheral blood with the treated peripheral blood and follow-up stage, immune function
detected of testing mainly included below: in vitro testing level of DRibble specific T
cells in the peripheral blood before and after the treatment, in order to make clear the
antigen produced specific immune response; culturing the specific T cells in vitro,carrying
out recognition experiment and patients autologous tumor (if successful separated) and
multiple builded strains lung cancer cells isolated from patients in vitro, in order to make
clear the specific T cells generated by experimental group could recognize many strains of
lung cancer cells, means allogeneic DRibble specific T cells can response to different
patient's tumor cells. 3. Safety evaluation indexes: adverse reaction(Redness and swelling,
pain, skin rashes, itching, etc. Allergic reactions);The blood test index is in accordance
with the standard(Routine blood, liver and kidney function, electrolyte, etc);The quality of
life (Weight and BMI, blood protein level, physical strength grade, psychological, emotional
evaluation, etc).
;
| Status | Clinical Trial | Phase | |
|---|---|---|---|
| Completed |
NCT04879849 -
A Study of TAK-676 With Pembrolizumab After Radiation Therapy to Treat a Number of Cancers
|
Phase 1 | |
| Completed |
NCT04426825 -
A Study of Atezolizumab in Combination With Bevacizumab in Patients With EGFR Mutation Positive Stage IIIB-IV Non-Squamous Non-Small Cell Lung Cancer
|
Phase 2 | |
| Terminated |
NCT03166631 -
A Trial to Find the Safe Dose for BI 891065 Alone and in Combination With BI 754091 in Patients With Incurable Tumours or Tumours That Have Spread
|
Phase 1 | |
| Completed |
NCT02810457 -
Evaluation of FKB238 and Avastin in Patients With Advanced/Recurrent Non-squamous Non-small Cell Lung Cancer
|
Phase 3 | |
| Completed |
NCT02864394 -
Study of Pembrolizumab Versus Docetaxel in Participants Previously Treated for Non-Small Cell Lung Cancer (MK-3475-033/KEYNOTE-033)
|
Phase 3 | |
| Recruiting |
NCT04592523 -
A Study of Usage of Brigatinib in the Treatment of Adult Participants for Approved Indications In South Korea
|
||
| Recruiting |
NCT04838548 -
A Study to Evaluate the Efficacy and Safety of MRG003 in Patients With EGFR-Positive Advanced Non-Small Cell Lung Cancer
|
Phase 2 | |
| Recruiting |
NCT04077463 -
A Study of Lazertinib as Monotherapy or in Combination With Amivantamab in Participants With Advanced Non-small Cell Lung Cancer
|
Phase 1 | |
| Recruiting |
NCT04603807 -
A Study to Compare the Efficacy and Safety of Entrectinib and Crizotinib in Participants With Advanced or Metastatic ROS1 Non-small Cell Lung Cancer (NSCLC) With and Without Central Nervous System (CNS) Metastases
|
Phase 3 | |
| Recruiting |
NCT05167604 -
Clinical Value of MRD Monitoring for Adjuvant Therapy in Postoperative NSCLC
|
||
| Completed |
NCT04948411 -
Durvalumab as Maintenance in Patients Who Received Chemoradiotherapy for Unresectable Stage III NSCLC: Real World Data From an Expanded Access Program in Brazil
|
||
| Active, not recruiting |
NCT04487080 -
A Study of Amivantamab and Lazertinib Combination Therapy Versus Osimertinib in Locally Advanced or Metastatic Non-Small Cell Lung Cancer
|
Phase 3 | |
| Not yet recruiting |
NCT04255836 -
Durvalumab Combined With Chemotherapy and Stereotactic Body Radiotherapy (SBRT) in Patients With Oligometastatic Non-small Cell Lung Cancer (NSCLC)
|
Phase 2 | |
| Completed |
NCT01953913 -
Afatinib (BIBW 2992) in Advanced Non-Small Cell Lung Cancer Patients With EGFR Mutation
|
Phase 3 | |
| Recruiting |
NCT05715229 -
Immune Profile Selection By Fraction of ctDNA in Patients With Advanced NSCLC Treated With Immunotherapy
|
Phase 2 | |
| Recruiting |
NCT04931654 -
A Study to Assess the Safety and Efficacy of AZD7789 in Participants With Advanced or Metastatic Solid Cancer
|
Phase 1/Phase 2 | |
| Suspended |
NCT05421936 -
Osimertinib for NSCLC With Uncommon EGFR Mutations
|
||
| Completed |
NCT02847377 -
A Positron Emission Tomography (PET) Imaging Agent [18F]-ODS2004436 as a Marker of EGFR Mutation in Subjects With NSCLC
|
N/A | |
| Completed |
NCT04427072 -
Study of Capmatinib Efficacy in Comparison With Docetaxel in Previously Treated Participants With Non-small Cell Lung Cancer Harboring MET Exon 14 Skipping Mutation
|
Phase 3 | |
| Recruiting |
NCT04823377 -
Impact of a Process Optimizing the Decision to Continue or Stop Cancer Treatments in Patients With Advanced Non-small Cell Lung Cancer.
|
N/A |