May the force be with us: our own immunity against cancer

Over the past decades, science has noticeably advanced in the treatment of cancer, and although we are still quite far from complete victory over this terrible disease, doctors have more and more tools to destroy tumors or limit their growth. The main thing - they give cancer patients the opportunity to live longer.
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 3r33333. One of these tools is the activation of a person’s own immunity against cancer cells. There is a whole direction dedicated to this - immuno-oncology. A lot of attention is focused on it, it is in this area that the most research is being conducted today and the most promising medicines are being developed.
 3r33333. "Medicine 24/7" we actively use immunotherapy - and we see that it gives good results. True, we are confronted with the fact that many patients are completely unaware of this method of treatment or consider it to be insufficiently studied and not trustworthy.
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 3r33333. In this publication we will try to clarify the questions: what is immunotherapy, how it works and who can help.
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 3r33333. May the force be with us: our own immunity against cancer
 3r33333. Judy Perkins. She had end-stage breast cancer, which was completely cured with the newest method of immunotherapy, 3r-3295.
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 3r33333. Hidden threat. How does cancer arise?
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 3r33333. Cancer cells are mutant rebels who managed to outwit the system.
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 3r33333. In the process of life, all the cells of an organism undergo strictly defined stages of development, perform specified functions, multiply according to strict rules, and eventually they grow old and die. This is a natural process. The programmed death of old cells that have accumulated a lot of damage is called apoptosis.
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 3r33333. However, under the influence of heredity or adverse external factors, some cells accumulate genetic errors and "rebel": refuse to live according to the nature of the algorithm, start to multiply uncontrollably, or do not die in time. This is not uncommon. Potentially cancer cells can periodically appear in each - this is normal. Practically always such “upstarts” are killed by the internal security service of the body - immunity 3r3r793. .
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 3r33333. One of the main roles in this process is played by T-lymphocytes, or, more simply, 3r-3332. T cells 3r33333. . They respond to antigen 3r33333. (a substance foreign to the body), recognize and destroy potential enemies: for example, microbes or inappropriate donor material. Normally, T-lymphocytes kill and body cells that have begun to mutate and behave not according to the rules. Therefore, cancer does not occur in all - the majority of immunity cope with the riots before they spread.
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 3r33333. But cancer tends to survive and the tumor cells try to capture as many resources as possible, to become "more successful." They multiply faster, secrete vascular growth factor (to attract more blood and nutrients to the tumor), develop resistance to drugs, force stem cells to increase the growth of tumor tissues (sending fraud signals with a request for regeneration).
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 3r33333. Cancer cells achieve special success in masking: some of them remove special antigen-proteins from their surface, by which T-cells can recognize them. Others secrete special molecules that suppress immunity, and some even form hybrids with macrophages (one of the types of immune cells) - and literally acquire superpowers!
 3r33333. In this, they are helped, on the one hand, by kinship with the normal cells of the body — a kind of innate disguise. On the other hand, the genetic variability of cancer cells gives them increased adaptability. The more mutations accumulated in the cell's DNA at the time of its malignancy (transformation into a malignant one), the more chances it has to go through the immune response and develop a successful capture plan.
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 3r33333. Awakening of power. The history of the Nobel discoveries
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 3r33333. Human immunity is actually a real army of ruthless murderers, and after each “military operation” to neutralize the next enemy, they must be calmed down and transferred from military to peaceful situation. This mechanism reduces the temperature to normal values ​​and stops inflammation when the danger has passed and the infection is defeated.
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 3r33333. The Nobel Prize in Physiology and Medicine in 2018 was awarded to the American James Ellison and the Japanese Tasuku Hongjo for their independent discoveries in the same field: exactly how does this switch from aggressive to calm mode.
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 3r33333. None of the scientists at first thought about cancer treatment. Both of them wanted to understand the work of the immune response more clearly. By that time, it was clear that on the surface of T-cells and on the surface of antigen-presenting cells (3r3332. APC 3r33333.) There are receptor molecules that act on each other, provoking or slowing down the work of the immune system. was opened. TCR - T cell receptor which T-cells recognize the "enemy" proteins exposed on the APC. Found the main histocompatibility complex MHC 3r33333. (major histocompatibility complex), with the help of which APC is precisely presented to the identification of T-cells pieces of foreign proteins. Peter Doherty and Rolf Zinkernagel won their Nobel Prize for the discovery of this scenario in 1996.
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 3r33333. Scientists understood that receptors on the surface of T-cells work in conjunction with co-stimulants on the surface of APC. Protein 3r33232. CD28 3r33333. isolated from the surface of T cells as early as 3r33232. 1980 3r33333. year, soon on the surface of the APC found the molecule B7. In the course of the experiments, the researchers of the Ellison group transferred the gene 3r3332. B7 3r33333. into cancer cells, and they began to be rejected by healthy tissue. It turned out that B7 binds to CD28 on the T-cell, and thus starts its work: The T-cell destroys the tumor cell, on the surface of which the B7 protein “sticks out”.
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 3r33333. In [b] 1987 3r33333. Allison discovered [b] cytotoxic T-lymphocytic antigen-4 CTLA-4
(cytotoxic T-lymphocyte-associated antigen-4) - and found out that this protein is similar in structure to the long-known CD2? and is also able to bind to B7 - however, it acts in exactly the opposite way: it stops the immune response.
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 3r33333. [i] Action CTLA-4

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 3r33333. At first, physicians were going to use this “brake” to fight autoimmune diseases (when the immune system starts attacking healthy cells of the body). But Allison came up with a brilliant thing: do not put pressure on the brake, but turn it off.
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 3r33333. He developed an antibody-inhibitor (switch) that bound to CTLA-4 and did not allow him to close in on B7 to turn off immune responses. The free B7 molecules contacted CD2? the T-cell was activated and was again ready to kill. When he conducted experiments on cancer patients in 1995 in mice, it became clear that even cunning cancer cells could not hide from such T-lymphocytes with disabled brakes. In 201? successful studies were conducted on hopeless patients. In some patients, melanoma disappeared along with metastases - an incredible result!
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 3r33333. The effect of the CTLA-4 inhibitor is ipilimumab 3r3-3295.
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 3r33333. At the same time in Kyoto Tasuku Hongjo found another receptor molecule on the surface of T-cells: 3r33332. PD-1 (Programmed cell Death protein-1
, Programmable Cell Death Protein-1). During the experiments (again on long-suffering mice), the Japanese found out that turning off the gene encoding this protein provokes symptoms of autoimmune disease in mice — that is, inhibition of PD-1 also turned off the “brakes” in T-lymphocytes and made them aggressive and active.
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 3r33333. Honjo found out that PD-1 puts the T-cell into “sleep mode” when it binds to the PD-L1 /PD-L2 protein on the surface of the antigen-presenting cell (APC). The PD-1 inhibitor opened this link and re-activated T cells. The effect of this “brake” was similar to the action of CTLA-? but it took a different route.
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 3r33333. [i] The effect of the PD-L1 inhibitor - nivoluumab

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 3r33333. Both open inhibitory molecules, CTLA-4 and PD-? were called 3r33332. immune control points
(checkpoints) - it is their number and activity that make T-cells make a decision: calm down or start a war.
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 3r33333. It turned out that CTLA-4 blockers activate immunity in general, all T-cells, and the PD-1 inhibitor acts more specifically on tumors, since many cancer cells carry the “second piece of the puzzle,” the PD-L1 /PD-L2 molecules. Because of this, treatment with PD-1 inhibitors gives less risk of complications.
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 3r33333. Immunity strikes back. What helps control point inhibitors
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 3r33333. Allison and Honjo made not only a serious contribution to the understanding of physiological processes, but also launched a wave of fundamentally new practical research in applied medicine.
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 3r33333. The discovery of inhibition of immune checkpoints (ICT) opens up a fundamentally new area of ​​search for solutions. The previously existing methods of fighting cancer: surgery, radiation and chemotherapy - were directed directly at the tumor itself, at destroying the cancer cells. Now physicians have a huge field for research in a completely different direction: changing the interaction of cancer cells with their environment.
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 3r33333. By the way, it was this fundamental difference that gave physicians a real breakthrough. Until now, the tumor acted depending on its location. For breast cancer, one drug for stomach cancer is quite another. In 201? the ICT inhibitor pembrolizumab was registered for the first time in the history of oncology as a drug for the treatment of any cancer in any organ - if only tests confirm that a tumor has a special property: microsatellite instability. That is, its DNA is particularly prone to mutations. Previously, it has never been possible to make a cure for cancer on some common basis. This is a great achievement.
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 3r33333. The revolution was the results of the use of new drugs against the most aggressive types of cancer: metastatic melanoma at stage IV was considered incurable. And patients with such a diagnosis who underwent a course of the drug ipilimumab (CTLA-4 blocker) in 2010 received an additional year of life, so the tumor development stopped. In 58% of them, the tumor has decreased by a third.
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 3r33333. In the treatment of non-small cell lung cancer nivolumab (PD-1 inhibitor), the risk of death of patients decreased by 40%.
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 3r33333. The drug pembrolizumab (also an inhibitor of PD-1) showed a decrease in tumor growth by 43% in the group treated with melanoma. 74% of patients lived without deterioration during the year, for 18 months there were 71%. It is important that the effect of prescribing the drug outweighed the side effects at all stages of the disease.
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 3r33333. Today, CTLA-4 and PD-1 inhibitors are used to treat melanoma (including inoperable), non-small cell lung cancer, squamous cell head and neck cancer, renal cell carcinoma, certain types of lymphomas, rectal cancer, bladder cancer, and tumors with microsatellite instability.
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 3r33333. Special attention is attracted to studies that show the effectiveness of 3r3204. combination therapy
both anti-PD-1 and anti-CTLA-4 drugs.
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 3r33333.  3r33333. The change in tumor volume is a sharp decrease with the combination of anti-PD-1 and anti-CTLA-4 drugs
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 3r33333.  3r33333. [i] Progression-free survival - a combination of anti-PD-1 and anti-CTLA-4 drugs is more effective 3r-3295.
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 3r33333. In Medicine 24/? we have been successfully using pembrolizumab and nivolumab since their registration in the Russian Federation. We followed all foreign studies and were very much looking forward to replenishing the arsenal.
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 3r33333. Attack of the clones. Genetically modified immunity 3r33333.
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 3r33333. Immune control points inhibitors are deservedly in the center of attention, but this mechanism is still not perfect and cannot cure any cancer. It is good that related areas of research are actively developing in immunotherapy. One of the most promising is [b] CAR-T therapy
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 3r33333. The letter T in the name of the method - all the same invariable T-cells of our immunity. The CAR (Chimeric antigen receptor) is a chimeric antigen receptor. Why is the receptor called chimeric? Because it is assembled from several parts taken from different cells - using the skills of genetic engineers.
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 3r33333. Normal T cells have a special receptor. TCR (T-cell receptor) . He "feels" all the cells of the body in his path and, if he senses some foreign molecule on the surface of the cell, sends an activating signal to the T-cell. She, in turn, either cracks down on an unwanted newcomer herself, or secretes special active substances (cytokines) and calls on other cells of the immune system to “sort out”. They kill T cells very effectively.
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 3r33333. True, not very accurate. There are far fewer TCR species than antigens exist. Therefore, T cells are able to recognize many antigens by their TCR, but only approximately. Cancer cells often take advantage of this weakness in our security system and pretend to be "their own."
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 3r33333. Evolution solved the problem as best it could: in the human body there is another mechanism for identifying outsiders: 3r33333. antibodies 3r33333. . These are special proteins that are secreted by another class of immune cells: B-lymphocytes. In B cells, in contrast to T cells, each “client” has an individual approach.
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 3r33333. The antibody is a protein structure in the form of a letter Y. At both ends of this "fork" there are sites that bind to the antigen. These sites may change with each next generation of antibodies to fit snugly to the antigen — like picking puzzle pieces. When a foreign antigen is detected, B cells secrete billions of antibodies, among which there is a selection for the most accurate match for the antigen. As a result, reference antibodies are obtained that are “trained” especially for very precise recognition of a specific “alien” antigen.
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 3r33333.  3r33333. [i] An antibody adapted to find a specific antigen 3r3323295.
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 3r33333. However, recognizing does not always mean disabling. With this, the complexity of antibodies - independently destroy the "enemy", they can not in all cases.
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 3r33333. So, in 198? an Israeli chemist and immunologist Zelig Ashkhar 3r-3281. came up with
unite the deadly powerweak-sighted T cells and sniper targeting of antibodies. He identified the terminal regions of the protein-antibodies that are able to tightly bind to the antigen of certain cancer cells, and “transplanted” them into the T-cell — they replaced part of the TCR responsible for the recognition of antigens.
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 3r33333. Subsequently, he began working together with his American colleague, Stephen Rosenberg, and they managed to make the chimeric receptor more efficient, at the same time sensitive and selective.
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 3r33333.  3r33333. [i] The difference between normal T cells and CAR-T cells is 3r-3295.
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 3r33333. In vitro studies have shown good results. Then the scientists again treated the mice, then painstakingly transferred the technique to humans.
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 3r33333. Over time, CAR-T therapy has led to a modern look.
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 3r33333. 3r3308.  3r33333. 3r33333. First, using gene-molecular testing, specific mutations in human tumor cells are determined for which antibodies can be “tuned”. 3r3333317.  3r33333. 3r33333. Then, a person takes his own T-cells, changes using bioengineering methods, instead of TCR, “transplanting” CAR, tuned to the identified mutations. 3r3333317.  3r33333. 3r33333. Then, modified CAR-T cells multiply in vitro and are injected back into the human body, where they successfully recognize and kill cancer cells. 3r3333317.  3r33333. 3r33333.
 3r33333. In the clinical trials started in 201? encouraging results were obtained immediately: in the treatment of lymphoma, 12 out of 13 patients showed improvement, while 4 had remission. In the treatment of leukemia, remission occurred in 17 out of 33 people. 3r-3382.  3r33333.
 3r33333. In 2018 in Nature Medicine appeared article American oncologists, where it was reported that for two years they have been observing a patient who is completely healthy after CAR-T therapy. She was cured of metastatic breast cancer with metastases. This is her picture in a kayak given at the beginning of the article: after treatment she returned to work and goes on hikes.
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 3r33333. [b] New Hope. Will immunotherapy be a panacea? 3r33333.
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 3r33333. Like other cancer treatments, immunotherapy has its limitations. Despite the fact that in some cases patients give a very good response to therapy with inhibitors of immune control points, in 60% of cases either the acquired resistance develops or primary resistance to anti-PD-1 or anti-CTLA-4 drugs is observed: the tumor simply does not respond for treatment or quickly adapts and learns to "bypass" it.
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 3r33333. In addition to PD-? PD-L1 /? CTLA-? CD28 and B? there are many other co-receptors on the surfaces of T-cells and tumor cells, the effect of which has not yet been studied as well as the work of control points, but they also affect on the immune response. One of the areas of work is the effect on these co-receptors.
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 3r33333. In addition, ICT therapy is complemented by the introduction of vaccines, cytokines, beta-blockers - and this approach also works well in 3r3346. In some cases,
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 3r33333. CAR-T therapy is still extremely expensive and is still only entering the stage of commercial use: research is being conducted in scientific groups of Ashhar and Rosenberg, other researchers - each group creates special types of CAR-T with a directed action against a particular type of cancer. But for now this is only research, testing and testing. It will take several years before it turns into a spent mass treatment method - but even then it will not be possible to give 100% guarantees.
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 3r33333. But while scientists are conducting research, doctors are introducing experimental treatment regimens using those achievements that already exist. And the most noticeable effect is the combination of immunotherapy with the classic "three pillars" of oncology: radiation and chemotherapy, surgery. When combining these methods, synergy is always obtained: together they work more efficiently than in turn.
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 3r33333. While the standard immunotherapy drugs have so far been included in the third, fifth line (that is, the queue) therapy, now doctors are moving to prescribe them immediately, along with chemotherapy and therapy with targeted monoclonal antibodies: such patients often show better dynamics and end up living longer.
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 3r33333. In Russia, all the main immunopreparations are already registered. The problem is, however, that for each of them the Ministry of Healthcare separately stipulates testimony . That is, for example, nine different types of cancer can be prescribed in the original instructions for the drug, in which the drug can be prescribed, and in our country it is registered only for six of them. And so with each drug. As a result, while about 50% of tumors are not yet included in this list. Accordingly, within the framework of treatment according to the compulsory medical insurance, the doctor can not prescribe these drugs to many patients.
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 3r33333. In addition, doctors of state budgetary clinics are strictly limited to treatment protocols. And if inhibitors of control points are registered in the protocol only in 3 lines, in 3 place after two lines of standard “chemistry”, then the doctor simply does not have the right to write them out, even if he thinks that this will help the patient.
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 3r33333. Well, a frequent problem is the lack of qualifications. The method, although it managed to prove itself, was still new for many doctors in the country. The drugs are all Western, and reach us with a delay of 2-3 years. And, considering that immunotherapy has been actively used for only a few years, many still have no experience with them. In addition, the use of immunotherapy requires specific knowledge.
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 3r33333. In private medicine, we are not limited by the budget. If in 3r3r. "Medicine 24/7"
A patient is treated with a tumor for which an immunotherapy drug has not yet been registered, we suggest that he undergo a molecular genetic study. According to the results, it becomes clear whether the tumor will respond to the immunopreparation. If yes - the doctor has the full right to appoint it. Therefore, in our hospital, we use immunotherapy for almost all types of cancer - it gives very good results. Even patients in stage III-IV show improvements. Immune drugs give us the opportunity to prolong people's lives, even in cases that were considered hopeless.
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 3r33333. The general and in private, and in public clinics are patients. They do not always understand well what the method is, how it works, hence the distrust. We hope this article has helped to understand and understand that immunotherapy today is quite deservedly in the focus of attention of oncologists. Judging by the results, she is ready to stand on one level with the classical methods. A terrible disease retreat another step further.
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aliya
aliya 29 April 2019 18:13
hello i just love this blog and looking for more info. 

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