Neoplasm Metastasis Clinical Trial
Official title:
Proteome-based Personalized Immunotherapy of Brain Metastases From Lung Cancer
Trial Hypothesis: Acute, progressing lethal neurooncological process can be transferred into
chronic and non-lethal, the survival rates and life quality can be improved by of control of
tumor cells (TCs) quantity and targeted regulation of effector functions of tumor stem cells
(TSCs).
Brief Description:
The first line therapy of brain metastases of lung cancer (BMLC) involves allogeneic
haploidentical hematopoietic stem cells (HSCs), dendritic vaccine (DV) and cytotoxic
lymphocytes (CTLs).
TCs and TSCs are isolated from BMLC sample. Dendritic cells are isolated from peripheral
blood mononuclear cells and cultured. Tumor sample provides tumor specific antigens to
prepare DV. CTLs are obtained from peripheral blood after DV administrations. HSCs are
harvested from closely related donor after granulocyte-colony-stimulating factor (G-CSF)
administration.
Allogeneic HSCs are administered intrathecally 5 times every 2 weeks, at day 1, 14, 28, 42,
56. DV is given 3 times every 2 weeks (day 14, 28, 42) subcutaneously in four points. CTLs
are administered every 2 weeks for 3 months, then 3 times every 1 month intrathecally. Six
months after the therapy completion, the efficiency is evaluated and the cohort demonstrating
efficiency continues the therapy, while cohort demonstrating no efficiency is transferred to
active comparator arm.
Second line therapy involves DV with recombinant proteins, CTLs and autologous HSC with
modified proteome. Autologous HSCs are mobilized by G-CSF.
Carcinogenesis-free intracellular pathways of signal transduction able to respond to targeted
regulation of therapeutic cell systems with specific properties, are detected in TSCs using
complete transcriptome profiling of gene expression, proteome mapping and profiling of
proteins, bioinformation and mathematical analysis and mathematical modeling of protein
profiles. To find key oncospecific proteins in TSCs and TCs, the targets for TSCs regulation
are detected, as well as protein ligands able to regulate reproductive and proliferative
properties of TSCs.
Using these data of TCs and TSCs proteins, the cell preparations to initiate adoptive immune
response are prepared: DV loaded with recombinant proteins analogous to key tumor antigens,
CTLs and autologous proteome-based HSCs.
Autologous proteome-modified HSCs, DV and CTLs are administered as in the first line therapy.
The trial will include 60 cases of refractor brain metastases from lung cancer (BMLC) of
different malignancy after no less than one line of standard chemotherapy and complete course
of radiotherapy.
The participants will enter the experimental (first line therapy) arm and will be subdivided
into 3 subgroups of 20 cases: group I of histologically confirmed lung adenocarcinoma cases
with brain metastases; group II of histologically confirmed small cell lung cancer cases with
brain metastases; and group III of squamous cell lung cancer cases with brain metastases.
The first line therapy of BMLC involves allogeneic haploidentical hematopoietic stem cells
(HSCs), dendritic vaccine (DV) and cytotoxic lymphocytes (CTLs).
HSCs are used to stimulate individualized adoptive immune response, to affect tumor cells
(TCs) toxically and to regulate tumor stem cells (TSCs) targetedly in order to suppress their
reproductive and proliferative potential. To obtain HSC the donor receives 8 subcutaneous
administrations of granulocyte colony-stimulating factor (G-CSF) with 8-10 hours interval for
4 days. The first three days a single dose is 2.5 mcg per 1 kg weight, the last day the dose
is doubled. The stem cells are harvested at day 5. Red blood cells are withdrawn by
centrifuging. The content of cell markers is evaluated by flow cytometry. The result is
assessed after cytoconcentrate enrichment and removal of mature cells and plasma from it. The
preparation is stored in tubes per 4 ml with cryoprotector and 10% poliglucin solution. Stem
cell proportion is no less than 0.5x106 CD34+, and lymphocytes proportion is no less than
0.5x109 per one administration.
The sample of brain tumor is obtained through stereotaxic/endoscopic/open biopsy from all
patients included into the trial. TCs and TSCs are immunochemically isolated from BMLC biopsy
sample. One part of tumor sample is used for standard histological, cytological and
immunochemical testing, while TCs and TSCs (CD133+) are isolated from the other part.
Dendritic cells are isolated from peripheral blood mononuclear cells and cultured. Tumor
sample provides tumor specific antigens to prepare the dendritic vaccine (DV).
Preparation of CTLs aims to enhance cytotoxic effect on tumor due to great number of
circulating CTLs. CTLs` are isolated from about 100 ml of peripheral blood after 3 DV
administrations, and of them dendritic cells (DCs) are grown. Then, peripheral blood is
repeatedly taken, and lymphocytes are isolated. The CTLs are co-cultured with DCs loaded with
tumor antigens (first line therapy) or recombinant proteins analogous to key oncospecific
proteins (second line therapy) for several times to expand their number (108-109). Their
immunophenotype is detected and CTLs are cryopreserved. The first stimulation of CTLs with
DCs lasts 6-8 days, the second lasts 2-4 days, next 2 days the lymphocytes are stimulated for
the third and fourth time. And then the received lymphocytes are stimulated by IL-2 for 2
days.
Six months after the first line therapy completion the efficiency is evaluated and the cohort
demonstrating efficiency continues the therapy, while cohort demonstrating no efficiency will
continue the trial with the second line therapy in active comparator arm.
The second line therapy arm uses DV with recombinant proteins analogous to key oncospecific
proteins, autologous CTLs and autologous HSCs with modified proteome.
Autologous HSCs are received from the trial participant as described previously. Cell
preparation of HSC for active comparator arm is obtained of the cytoconcentrate of autologous
mononuclear cells of peripheral blood after mobilization as specified for experimental arm.
Tumor specific antigens for active comparator group are provided by tumor tissue of the
patient.
TCs and TSCs as well as HSCs of the patient undergo complete transcriptome mapping and gene
expression profiling (CTMGEP) and proteome mapping and protein profiling (PMPP). Key (3 or 4
proteins with maximal normalized intensity) oncospecific proteins (OSP) are determined
according to proteome testing of TCs, while proteome profiling of TSCs and use of databases
of protein-protein relations permit detection of intracellular signal transduction pathways
(ISTP) unaffected by carcinogenesis and capable of regulation. Also, receptor membrane
targets to affect these signal pathways (acceptor membrane proteins) are detected, as well as
proteins that are able to activate them (protein ligands). CTMGEP of TSCs confirms diagnosed
functional ISTP. Mathematical modeling of CTMGEP and comparison with Affymetrix GeneChip
Human genome U133A Array data reveals perturbagens able to chemically induce HSCs and to
modify their proteome profile in order to provide secretion of requisite protein ligands. The
database analysis permits understanding of how changes in gene expression induced by a
low-molecular agent or micro RNA corresponds with the changes observed in the examined
profile. If correspondence is significant, it is supposed, that the agent or similar agents
can initiate the effect. If anticorrelation is significant, the agent is supposed to initiate
an opposite effect in gene expression modification. The transcriptome of HSCs is modified by
co-culturing mononuclear cells with perturbagens. Their biological efficiency is evaluated in
vitro in Homunculus bioreactor. Then preparation is stored as described previously.
Individual DV is prepared from the leukoconcentrate of peripheral blood of the patient. The
lymphocytes are isolated, cultured with G-CSF and interleukin-2, conditioned by
tumor-specific antigens, TNF-α and PGE2 for 48 hours and loaded with recombinant proteins
identical to key tumor-specific antigens detected at proteomic testing of tumor cells (TCs).
Basic mechanism of DV immune effect is elaboration of tumor toxic lymphocytes by the organism
of the patient.
CTLs are obtained as described previously. The intervention is described in the appropriate
section.
Toxicity will be evaluated according to CTC-NCI criteria. Efficiency is assessed according to
the following criteria:
1. Complete effect - full disappearance of all tumor foci
2. Partial effect - reduction of tumor size and/or metastatic foci by no less than 50% and
no signs of new neoplasms
3. Stabilization - reduction of tumor foci size by less than 50% and no signs of new
neoplasms
4. Progress - growth of tumor foci during the therapy. In case of mosaic effect, when part
of foci progresses and part is stable or reducing, the therapy is continued but the
cases are analyzed outside the context "Response to the therapy"
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