Difference between revisions of "Team:HZAU-China/Description"

 
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                 <a class="item" href="https://2018.igem.org/Team:HZAU-China/InterLab">InterLab</a>
 
                 <a class="item" href="https://2018.igem.org/Team:HZAU-China/InterLab">InterLab</a>
 
                 <a class="item" href="https://2018.igem.org/Team:HZAU-China/Notebook">Notebook</a>
 
                 <a class="item" href="https://2018.igem.org/Team:HZAU-China/Notebook">Notebook</a>
 +
 
             </li>
 
             </li>
 
             <li class="hiLight shortName">
 
             <li class="hiLight shortName">
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                 <a class="item" href="https://2018.igem.org/Team:HZAU-China/Collaborations">Collaborations</a>
 
                 <a class="item" href="https://2018.igem.org/Team:HZAU-China/Collaborations">Collaborations</a>
 
             </li>
 
             </li>
             <li class="shortName">
+
             <li class="hiLight shortName">
                 <a class="nav_head" href="https://2018.igem.org/Team:HZAU-China/Parts">
+
                 <a class="nav_head" href="#">
 
                     <span>Parts</span>
 
                     <span>Parts</span>
 +
                    <span class="xjtPic"></span>
 
                 </a>
 
                 </a>
 +
                <a class="item" href="https://2018.igem.org/Team:HZAU-China/Basic_Part">Basic</a>
 +
                <a class="item" href="https://2018.igem.org/Team:HZAU-China/Composite_Part">Composite</a>
 
             </li>
 
             </li>
 
         </ul>
 
         </ul>
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             <div id="float01" class="cur">
 
             <div id="float01" class="cur">
 
                 <div class="h1">Background</div>
 
                 <div class="h1">Background</div>
                 <p>Cancers are diseases that link to abnormal cell growth and they have the potential to invade surrounding tissues. In medicine, the earliest written description of cancer was found in the Edwin Smith Papyrus in about 1600 BC. The history of cancer is accompanied by the history of medical technology development. Advances in medical technology have led to a rise in life expectancy, which has also made cancer come into the public eye more often. Despite advances in cancer therapy, the result of Global Cancer Statistics 2018 shows that there will be about 18.1 million new cancer cases (17.0 million excluding nonmelanoma skin cancer) and 9.6 million cancer deaths (9.5 million excluding nonmelanoma skin cancer) in 2018<sup>1</sup>. In the meantime, cancer is expected to be the leading cause of death and the most important barrier in the way to increase life expectancy in every country of the world in the 21st century<sup>1</sup>.</p>
+
                <p>The importance of cancer treatments has already come to light. This year, we turned to this common
                <p>Pyroptosis is a lytic form of inflammatory cell death which is induced by caspases 1, 3, 4, 5 and 11. The morpholog of pyroptosis is characterized by cell swelling which causes release of cytoplasmic contents of the cell, including proinflammatory cytokines, endogenous ligands, alarmins, ATPs, and other danger-associated molecular patterns<sup>1</sup>. A recent study reported that Gasdermin D is a essential effector of pyroptosis<sup>2</sup>. Full length Gasdermin D can be cleaved by Caspase when host cell defined the infection. Thus, the N-terminal of Gasdermin D named PFD (pore-forming domain) which can oligomerize to form pore on the plasma membrane is exposured from RD (repressor domain)<sup>3</sup>. Subsequently, sodium and water rush into cell causes the cell swelling result in cell rupture. Simultaneously, IL-1β is released into extracellular environment though the gasdermin pore<sup>4</sup> (Figure 1).(找美工画)
+
                    concern and found out a new approach to help its solution.</p>
 
+
                <div class="h2">Cancer</div>
                     Some recent studies demonstrated the following points:
+
                 <p>Cancers, the feral diseases that link to abnormal cell growth and surrounding tissues invasion, were
                      
+
                    earliest written in the Edwin Smith Papyrus in about 1600 BC<sup>1</sup>. Because of its high
                    1.Berberin inhibits the viability of HepG2 cell though induction of pyroptosis<sup>5</sup>.
+
                    mortality and
                   
+
                    the extreme suffering, efficient therapies firmly come into the public consciousness. During these
                    2.Caspase 1 rescure the sensitivity of radiant lethality in prostate cancer<sup>6</sup>.
+
                    years, cancers have impelled the development of medical technology which serves as the powerful
                   
+
                    tool to defend against and advances in technology; this also have led to a rise in life expectancy.
                    3.Nlrp3<sup>−/−</sup> mice are susceptible to colitis associated colon cancer<sup>7</sup>.
+
                    Despite its improvement, the result of Global Cancer Statistics 2018 predicts that there will be
                   
+
                    about 18.1 million new cancer cases (17.0 million excluding nonmelanoma skin cancer) and 9.6
                    According to these studies, we think pyroptosis can be exploited for tumor suppression.</p>
+
                    million cancer deaths (9.5 million excluding nonmelanoma skin cancer) at the end of 2018<sup>2</sup>.
 +
                     It's
 +
                     obvious that we still have a long way to go. </p>
  
 +
                <div class="h2">Pyroptosis</div>
 +
                <p>We utilize a newly reported mechanism, pyroptosis, to treat cancers. Pyroptosis is a lytic form
 +
                    of inflammatory cell death which is mediated by activation of Caspases 1, 3, 4, 5 and 11. The
 +
                    morphology of pyroptosis is characterized by cell swelling and rupturing which causes releasing of
 +
                    cytoplasmic contents of the cell, including proinflammatory cytokines, endogenous ligands,
 +
                    alarmins, ATP and other danger-associated molecules<sup>3</sup>. What's important is that
 +
                    protein
 +
                    Gasdermin D (GSDMD) has been found as an essential effector of pyroptosis in recent studies<sup>4</sup>.
 +
                    When
 +
                    host cells are defending the infection, full-length Gasdermin D will be cleaved by Caspases and the
 +
                    process will expose the N-terminal of Gasdemin D (PFD, pore form domain) from RD (repressor
 +
                    domain). PFD can oligomerize and form pores on the plasma membrane from the intracellular side,and
 +
                    then sodium and water rush into the cell, causing cell rupture.
 +
                    Simultaneously, cytokines such as IL-1βand IL-18 are released into the extracellular environment
 +
                    through the Gasdermin pores (<b>Figure 1</b>).</p>
 +
                <p>Some features about the relationship between pyroptosis and cancers are demonstrated in recent
 +
                    studies:</p>
 +
                <p>1. Berberine inhibits the viability of HepG2 cell through induction of pyroptosis<sup>5</sup>.</p>
 +
                <p>2. Caspase 1 rescues the sensitivity of radiant lethality in prostate cancer, increasing the
 +
                    proportion of died cancer cells after radiation therapy<sup>6</sup>.</p>
 +
                <p>3. <i>Nlrp3</i><sup>-/-</sup> mice without pyroptosis pathway are susceptible to catch
 +
                    colitis-associated colon cancer<sup>7</sup>.</p>
 +
                <p>These meaningful studies help us to exploit advantage of pyroptosis in tumor therapy.</p>
 +
                <div style="width: 80%; margin: 0px auto">
 +
                    <img src="https://static.igem.org/mediawiki/2018/1/13/T--HZAU-China--description1.jpg" width="100%">
 +
                </div>
 +
                <p style="width: 100%; text-align: center !important;"><b>Figure 1.</b> Schematic diagram of
 +
                    pyroptosis.</p>
 +
                <div class="h2">Carrier</div>
 +
                <p>Our project aims to cure cancer by triggering pyroptosis through translocating the N-terminal of
 +
                    GSDMD
 +
                    (GSDMD-N275). There are many vectors can be used such as oncolytic virus, macromolecular carrier
 +
                    and
 +
                    bacteria. In our project, we chose <i>Salmonella enterica</i> serovar Typhimurium str. SL1344
 +
                    as a carrier. Why we chose <i>Salmonella</i> as our carrier is based on the following reasons.
 +
                    First, GSDMD-N275 can only induce pyroptosis from the inside of a cell, therefore <i>Salmonella</i>
 +
                    is a
 +
                    brilliant candidate as an intracellular parasite. Second, <i>Salmonella</i> is a widely used
 +
                    carrier to cancer therapy because its natural taxis to tumor<sup>8</sup>.
 +
                </p>
 
             </div>
 
             </div>
            <div id="float02">
 
                <div class="h1">Our Project</div>
 
  
            </div>
+
             <div id="float02">
             <div id="float03">
+
 
                 <div class="h1">Significance</div>
 
                 <div class="h1">Significance</div>
                 <p>Recent study demonstrated that GSDME was expressed in many normal cells but silenced in most cancer cells. So chemotherapy drug activate caspase-3-mediated pyroptosis in normal tissue but caspase-3-mediated apoptosis in cancer cells result in high efficacy of tissue damage but low efficacy of tumor kill8. Our project can trigger pyroptosis in cancer cells through targeted vector in order to switch this process(Fig 2). .(找美工画)
+
                 <p>It's important to highlight the significance our project.</p><br>
 +
                <p> <b>1. Switch apoptosis to pyroptosis in chemical therapy</b><br>
 +
                    Numerous patients accept chemotherapy during their fight against cancers though there are terrible
 +
                    drawbacks. Chemotherapy drugs can activate caspase-3-mediated pyroptosis in normal cells while
 +
                    apoptosis in cancer cells, resulting in severe healthy tissue damage and inefficient tumor cure<sup>9</sup>.
 +
                    However, our designed circuit can trigger pyroptosis in cancer cells to solve this problem (<b>Figure
 +
                        2</b>).</p>
 +
                <div style="width: 80%; margin: 0px auto">
 +
                    <img src="https://static.igem.org/mediawiki/2018/0/0a/T--HZAU-China--description2.jpg" width="100%">
 +
                </div>
 +
                <p><b>Figure 2.</b> Difference between traditional approach and our approach for cancer therapy. G refers to GSDMD-N275 and E refers to GSDME.</p><br>
 +
                <p> <b>2. Pyroptosis make tumor expose to immune system</b><br>
 +
                    The lysate of cell rupture during pyroptosis can destroy tumor microenvironment which is vital to
 +
                    tumor growth. Pyroptosis not only releases "find me" signals but also "eat me" signals<sup>10</sup>.
 +
                    Pyroptosis induces greater ATP release than apoptosis to attract more immune cells into tumor bed,
 +
                    which is one of the "find me" signals. Also, ATP can bind to purinergic P2RX7 receptors on
 +
                    dentritic cell (DC),
 +
                    activating the NLRP3/ASC/Caspase-1 inflammasome and secreting interleukin-1β (IL-1β), which is
 +
                    required for CD8<sup>+</sup> T cells to release IFN-γ which lyse tumor cells<sup>11</sup>. The "eat
 +
                    me" signal is the
 +
                    phosphatidylserine externalization which recruits macrophages to engulf the tumor cells (<b>Figure
 +
                        3</b>).</p>
 +
                <div style="width: 80%; margin: 0px auto">
 +
                    <img src="https://static.igem.org/mediawiki/2018/d/d2/T--HZAU-China--description3.jpg" width="100%">
 +
                </div>
 +
                <p style="width: 100%; text-align: center !important;"><b>Figure 3.</b> Schematic diagram of immune
 +
                    response during pyroptosis.</p><br>
  
                    What else, the lysate of cell rupture during pyroptosis destroy tumor microenvironment. Pyroptosis not only releases “find me” signal and “eat me” signal9. “Find me” signal such as ATP attracts immune cell into tummor bed. Pyroptosis induce greater ATP release than apoptosis. These signals attract immune cell into tummor bed. On the other hand, ATP bind to purinergic P2RX7 receptors on DC, thus activating the NLRP3/ASC/caspase-1 inflammasome and secreting interleukin-1β (IL-1β) which is required for CD8+ T cells to releasing IFNγ which lysis tumour cells10. During pyroptosis, phosphatidylserine externalization as a “eat me” signal to recruit macrophage to engulf the tumor cells(Fig 3).(找美工画)
+
                <p> <b>3. Pyroptosis combined with antibody-dependent cellular cytotoxicity (ADCC) will become more
                 
+
                        efficient</b><br>
                  Therapy combinate Pyroptosis and monoclonal antibody(mAbs) may get batter efficacy. Several monoclonal antibody such as trastuzumab (TRAST), alemtuzumab, cetuximab, panitumumab and ofatumumab, etc, have become one of the classical treatment of both solid tumors and hematologic malignancies11 1⁠2.These mAb can taget cancer cell and induce antibody-dependent cellular cytotoxicity(ADCC), a special way to recruit nature kill cell(NK cell), macrophages, γδ T cells, and dendritic cells to against cancer13.⁠ Pyroptosis released Tumor Necrosis Factor-α (TNFα) and Interferon-γ(IFN-γ)(Fig.4) will inducing proliferation of NK cell to enhance ADCC14 ⁠15⁠. TNFα and IFN-γ can also up-regulated intercellular cell adhesion molecule-1(ICAM-1 or CD54) expression16⁠.ICAM-1 enhance the ability of mAbs target Integrin(such as αvβ3 in our study)and combine with NK cell(Fig.5)17⁠. Strengthen ADCC on the other hand.</p>
+
                    Some monoclonal antibodies such as trastuzumab (TRAST), alemtuzumab, cetuximab and panitumumab
 +
                    have been utilized for both solid tumors and hematologic malignancies treatments through
 +
                    ADCC<sup>12</sup> (<b>Figure 4</b>). It's a special way to recruit natural killer cells (NK cells), macrophages, γδ T
 +
                    cells, and
 +
                    dendritic cells to against cancer. However, lower activity of NK cells hinders the development of
 +
                    this
 +
                    approach<sup>13</sup>. In our project, we give a new approach to solve this problem. IL-18 released
 +
                    from
 +
                    pyroptotic cells can stimulate NK cells proliferation and activation<sup>14</sup>. Meanwhile,
 +
                    pyroptosis also up-regulates intercellular cell adhesion molecule-1 (ICAM-1 or CD54) which binds to
 +
                    alpha integrin on the tumor cell, resulting in enhancing the affinity between NK cells and tumor
 +
                    cells<sup>15</sup> (<b>Figure 5</b>).</p>
 +
                <div style="width: 80%; margin: 0px auto">
 +
                    <img src="https://static.igem.org/mediawiki/2018/e/e4/T--HZAU-China--description4.jpg" width="100%">
 +
                </div>
 +
                <p style="width: 100%; text-align: center !important;"><b>Figure 4. </b>Schematic diagram of antibody-dependent cellular cytotoxicity. </p>
 +
 
 +
                <div style="width: 80%; margin: 0px auto">
 +
                    <img src="https://static.igem.org/mediawiki/2018/f/fa/T--HZAU-China--description5.jpg" width="100%">
 +
                </div>
 +
                <p style="width: 100%; text-align: center !important;"><b>Figure 5. </b> Activation and proliferation of NK cells.</p><br>
 +
                <p> <b>4. Safe utilization of the N-terminal of GSDMD</b><br>
 +
                    Recent studies demonstrated that the N-terminal of GSDMD performs function through binding to
 +
                    inositol phosphate (present in inner leaflet of cell membrane) in eukaryotic cell but cardiolipin
 +
                    (present in the inner and outer leaflets of cell membranes) in bacteria<sup>16</sup>. Thus, the
 +
                    N-terminal of
 +
                    GSDMD releasing from bacteria is avirulent to normal cells (because of its extracellular location
 +
                    to normal cells), but can attack tumor cells and redundant bacteria from inside.</p>
 
             </div>
 
             </div>
             <div id="float04">
+
 
                    <div class="h1">Reference</div>
+
             <div id="float03">
                     <p></p>
+
                <div class="h1">Reference</div>
 +
                <p>1. Steven, Hajdu. A note from history: Landmarks in history of cancer, part 1. Cancer, 117(5),
 +
                     1097-1102 (2011a).</p>
 +
                <p>2. Bray, F. et al. Global cancer statistics 2018: GLOBOCAN estimates of incidence and mortality
 +
                    worldwide for 36 cancers in 185 countries. CA A J. Clin. 00, 1–31 (2018).</p>
 +
                <p>3. Kovacs, S. B. & Miao, E. A. Gasdermins: Effectors of Pyroptosis. Trends Cell Biol 27, 673-684,
 +
                    doi:10.1016/j.tcb.2017.05.005 (2017).</p>
 +
                <p>4. Ding, J. et al. Pore-forming activity and structural autoinhibition of the gasdermin family.
 +
                    Nature 535, 111-116, doi:10.1038/nature18590 (2016).</p>
 +
                <p>5. Chu Q. et al. Pyroptosis is involved in the pathogenesis of human hepatocellular carcinoma.
 +
                    Oncotarget 7, 84658-84665, doi:10.18632/oncotarget.12384 (2016). </p>
 +
                <p>6. Rachel N. Winter, A. K., Andrew Borkowski, and Natasha Kyprianou. Loss of Caspase-3 Protein
 +
                    Expression in Human Prostate Cancer. CANCER RESEARCH 61, 1227-1232 (2001).</p>
 +
                <p>7. Allen, I. C. et al. The NLRP3 inflammasome functions as a negative regulator of tumorigenesis
 +
                    during colitis-associated cancer. J Exp Med 207, 1045-1056, doi:10.1084/jem.20100050 (2010).</p>
 +
                <p>8. Forbes, N. S. Engineering the perfect (bacterial) cancer therapy. Nat Rev Cancer 10, 785-794,
 +
                    doi:10.1038/nrc2934 (2010).</p>
 +
                <p>9. Wang, Y. et al. Chemotherapy drugs induce pyroptosis through caspase-3 cleavage of a gasdermin.
 +
                    Nature 547, 99-103, doi:10.1038/nature22393 (2017).</p>
 +
                <p>10. Wang, Q. et al. Pyroptotic cells externalize eat-me and release find-me signals and are
 +
                    efficiently engulfed by macrophages. Int Immunol 25, 363-372, doi:10.1093/intimm/dxs161 (2013).</p>
 +
                <p>11. Ghiringhelli, F. et al. Activation of the NLRP3 inflammasome in dendritic cells induces
 +
                    IL-1beta-dependent adaptive immunity against tumors. Nat Med 15, 1170-1178, doi:10.1038/nm.2028
 +
                    (2009).</p>
 +
                <p>12. Nelson, A. L. & Reichert, J. M. Development trends for therapeutic antibody fragments. Nat.
 +
                    Biotechnol. 27, 331–337 (2009).</p>
 +
                <p>13. Kohrt, H. E. et al. Combination strategies to enhance antitumor ADCC. Immunotherapy 4, 511–527
 +
                    (2012).</p>
 +
                <p>14. Cheng, M., Chen, Y., Xiao, W., Sun, R. & Tian, Z. NK cell-based immunotherapy for malignant
 +
                    diseases. Cell. Mol. Immunol. 10, 230–252 (2013).</p>
 +
                <p>15. Kohrt, H., Rajasekaran, N., Chester, C., Yonezawa, A. & Zhao, X. Enhancement of
 +
                    antibody-dependent cell mediated cytotoxicity: a new era in cancer treatment. ImmunoTargets Ther.
 +
                    91 (2015). doi:10.2147/ITT.S61292</p>
 +
                <p>16. Liu, X. et al. Inflammasome-activated gasdermin D causes pyroptosis by forming membrane pores.
 +
                    Nature 535, 153-158, doi:10.1038/nature18629 (2016).</p>
 
             </div>
 
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                    <span class="biaoti">Description</span>
+
                <span class="biaoti">Description</span>
                    <span class="xsjPic"><img src="https://static.igem.org/mediawiki/2018/8/8d/T--HZAU-China--xjt.svg" alt=""></span>
+
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             </div>
 
             <div class="floatCtro">
 
             <div class="floatCtro">
 
                 <p class="daohanger">Background</p>
 
                 <p class="daohanger">Background</p>
                <p class="daohanger">Our Project</p>
 
 
                 <p class="daohanger">Significance</p>
 
                 <p class="daohanger">Significance</p>
 
                 <p class="daohanger">Reference</p>
 
                 <p class="daohanger">Reference</p>
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Latest revision as of 21:16, 17 October 2018

Background

The importance of cancer treatments has already come to light. This year, we turned to this common concern and found out a new approach to help its solution.

Cancer

Cancers, the feral diseases that link to abnormal cell growth and surrounding tissues invasion, were earliest written in the Edwin Smith Papyrus in about 1600 BC1. Because of its high mortality and the extreme suffering, efficient therapies firmly come into the public consciousness. During these years, cancers have impelled the development of medical technology which serves as the powerful tool to defend against and advances in technology; this also have led to a rise in life expectancy. Despite its improvement, the result of Global Cancer Statistics 2018 predicts that there will be about 18.1 million new cancer cases (17.0 million excluding nonmelanoma skin cancer) and 9.6 million cancer deaths (9.5 million excluding nonmelanoma skin cancer) at the end of 20182. It's obvious that we still have a long way to go.

Pyroptosis

We utilize a newly reported mechanism, pyroptosis, to treat cancers. Pyroptosis is a lytic form of inflammatory cell death which is mediated by activation of Caspases 1, 3, 4, 5 and 11. The morphology of pyroptosis is characterized by cell swelling and rupturing which causes releasing of cytoplasmic contents of the cell, including proinflammatory cytokines, endogenous ligands, alarmins, ATP and other danger-associated molecules3. What's important is that protein Gasdermin D (GSDMD) has been found as an essential effector of pyroptosis in recent studies4. When host cells are defending the infection, full-length Gasdermin D will be cleaved by Caspases and the process will expose the N-terminal of Gasdemin D (PFD, pore form domain) from RD (repressor domain). PFD can oligomerize and form pores on the plasma membrane from the intracellular side,and then sodium and water rush into the cell, causing cell rupture. Simultaneously, cytokines such as IL-1βand IL-18 are released into the extracellular environment through the Gasdermin pores (Figure 1).

Some features about the relationship between pyroptosis and cancers are demonstrated in recent studies:

1. Berberine inhibits the viability of HepG2 cell through induction of pyroptosis5.

2. Caspase 1 rescues the sensitivity of radiant lethality in prostate cancer, increasing the proportion of died cancer cells after radiation therapy6.

3. Nlrp3-/- mice without pyroptosis pathway are susceptible to catch colitis-associated colon cancer7.

These meaningful studies help us to exploit advantage of pyroptosis in tumor therapy.

Figure 1. Schematic diagram of pyroptosis.

Carrier

Our project aims to cure cancer by triggering pyroptosis through translocating the N-terminal of GSDMD (GSDMD-N275). There are many vectors can be used such as oncolytic virus, macromolecular carrier and bacteria. In our project, we chose Salmonella enterica serovar Typhimurium str. SL1344 as a carrier. Why we chose Salmonella as our carrier is based on the following reasons. First, GSDMD-N275 can only induce pyroptosis from the inside of a cell, therefore Salmonella is a brilliant candidate as an intracellular parasite. Second, Salmonella is a widely used carrier to cancer therapy because its natural taxis to tumor8.

Significance

It's important to highlight the significance our project.


1. Switch apoptosis to pyroptosis in chemical therapy
Numerous patients accept chemotherapy during their fight against cancers though there are terrible drawbacks. Chemotherapy drugs can activate caspase-3-mediated pyroptosis in normal cells while apoptosis in cancer cells, resulting in severe healthy tissue damage and inefficient tumor cure9. However, our designed circuit can trigger pyroptosis in cancer cells to solve this problem (Figure 2).

Figure 2. Difference between traditional approach and our approach for cancer therapy. G refers to GSDMD-N275 and E refers to GSDME.


2. Pyroptosis make tumor expose to immune system
The lysate of cell rupture during pyroptosis can destroy tumor microenvironment which is vital to tumor growth. Pyroptosis not only releases "find me" signals but also "eat me" signals10. Pyroptosis induces greater ATP release than apoptosis to attract more immune cells into tumor bed, which is one of the "find me" signals. Also, ATP can bind to purinergic P2RX7 receptors on dentritic cell (DC), activating the NLRP3/ASC/Caspase-1 inflammasome and secreting interleukin-1β (IL-1β), which is required for CD8+ T cells to release IFN-γ which lyse tumor cells11. The "eat me" signal is the phosphatidylserine externalization which recruits macrophages to engulf the tumor cells (Figure 3).

Figure 3. Schematic diagram of immune response during pyroptosis.


3. Pyroptosis combined with antibody-dependent cellular cytotoxicity (ADCC) will become more efficient
Some monoclonal antibodies such as trastuzumab (TRAST), alemtuzumab, cetuximab and panitumumab have been utilized for both solid tumors and hematologic malignancies treatments through ADCC12 (Figure 4). It's a special way to recruit natural killer cells (NK cells), macrophages, γδ T cells, and dendritic cells to against cancer. However, lower activity of NK cells hinders the development of this approach13. In our project, we give a new approach to solve this problem. IL-18 released from pyroptotic cells can stimulate NK cells proliferation and activation14. Meanwhile, pyroptosis also up-regulates intercellular cell adhesion molecule-1 (ICAM-1 or CD54) which binds to alpha integrin on the tumor cell, resulting in enhancing the affinity between NK cells and tumor cells15 (Figure 5).

Figure 4. Schematic diagram of antibody-dependent cellular cytotoxicity.

Figure 5. Activation and proliferation of NK cells.


4. Safe utilization of the N-terminal of GSDMD
Recent studies demonstrated that the N-terminal of GSDMD performs function through binding to inositol phosphate (present in inner leaflet of cell membrane) in eukaryotic cell but cardiolipin (present in the inner and outer leaflets of cell membranes) in bacteria16. Thus, the N-terminal of GSDMD releasing from bacteria is avirulent to normal cells (because of its extracellular location to normal cells), but can attack tumor cells and redundant bacteria from inside.

Reference

1. Steven, Hajdu. A note from history: Landmarks in history of cancer, part 1. Cancer, 117(5), 1097-1102 (2011a).

2. Bray, F. et al. Global cancer statistics 2018: GLOBOCAN estimates of incidence and mortality worldwide for 36 cancers in 185 countries. CA A J. Clin. 00, 1–31 (2018).

3. Kovacs, S. B. & Miao, E. A. Gasdermins: Effectors of Pyroptosis. Trends Cell Biol 27, 673-684, doi:10.1016/j.tcb.2017.05.005 (2017).

4. Ding, J. et al. Pore-forming activity and structural autoinhibition of the gasdermin family. Nature 535, 111-116, doi:10.1038/nature18590 (2016).

5. Chu Q. et al. Pyroptosis is involved in the pathogenesis of human hepatocellular carcinoma. Oncotarget 7, 84658-84665, doi:10.18632/oncotarget.12384 (2016).

6. Rachel N. Winter, A. K., Andrew Borkowski, and Natasha Kyprianou. Loss of Caspase-3 Protein Expression in Human Prostate Cancer. CANCER RESEARCH 61, 1227-1232 (2001).

7. Allen, I. C. et al. The NLRP3 inflammasome functions as a negative regulator of tumorigenesis during colitis-associated cancer. J Exp Med 207, 1045-1056, doi:10.1084/jem.20100050 (2010).

8. Forbes, N. S. Engineering the perfect (bacterial) cancer therapy. Nat Rev Cancer 10, 785-794, doi:10.1038/nrc2934 (2010).

9. Wang, Y. et al. Chemotherapy drugs induce pyroptosis through caspase-3 cleavage of a gasdermin. Nature 547, 99-103, doi:10.1038/nature22393 (2017).

10. Wang, Q. et al. Pyroptotic cells externalize eat-me and release find-me signals and are efficiently engulfed by macrophages. Int Immunol 25, 363-372, doi:10.1093/intimm/dxs161 (2013).

11. Ghiringhelli, F. et al. Activation of the NLRP3 inflammasome in dendritic cells induces IL-1beta-dependent adaptive immunity against tumors. Nat Med 15, 1170-1178, doi:10.1038/nm.2028 (2009).

12. Nelson, A. L. & Reichert, J. M. Development trends for therapeutic antibody fragments. Nat. Biotechnol. 27, 331–337 (2009).

13. Kohrt, H. E. et al. Combination strategies to enhance antitumor ADCC. Immunotherapy 4, 511–527 (2012).

14. Cheng, M., Chen, Y., Xiao, W., Sun, R. & Tian, Z. NK cell-based immunotherapy for malignant diseases. Cell. Mol. Immunol. 10, 230–252 (2013).

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Reference

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