Introduction NK cells can mediate tumor cell killing by natural cytotoxicity and by antibody-dependent cell-mediated cytotoxicity (ADCC), an anti-tumor mechanism mediated through the IgG Fc receptor ...CD16A (FcγRIIIA). CD16A polymorphisms conferring increased affinity for IgG positively correlate with clinical outcomes during monoclonal antibody therapy for lymphoma, linking increased binding affinity with increased therapeutic potential via ADCC. We have previously reported on the FcγR fusion CD64/16A consisting of the extracellular region of CD64 (FcγRI), a high-affinity Fc receptor normally expressed by myeloid cells, and the transmembrane/cytoplasmic regions of CD16A, to create a highly potent and novel activating fusion receptor. Here, we evaluate the therapeutic potential of engineered induced pluripotent stem cell (iPSC)-derived NK (iNK) cells expressing CD64/16A as an “off-the-shelf”, antibody-armed cellular therapy product with multi-antigen targeting potential. Methods iNK cells were generated from iPSCs engineered to express CD64/16A and an interleukin (IL)-15/IL-15Rα fusion (IL-15RF) protein for cytokine independence. iNK cells and peripheral blood NK cells were expanded using irradiated K562-mbIL21–41BBL feeder cells to examine in in vitro and in vivo assays using the Raji lymphoma cell line. ADCC was evaluated in real-time by IncuCyte assays and using a xenograft mouse model with high circulating levels of human IgG. Results Our data show that CD64/16A expressing iNK cells can mediate potent anti-tumor activity against human B cell lymphoma. In particular, (i) under suboptimal conditions, including low antibody concentrations and low effector-to-target ratios, iNK-CD64/16A cells mediate ADCC, (ii) iNK-CD64/16A cells can be pre-loaded with tumor-targeting antibodies (arming) to elicit ADCC, (iii) armed iNK-CD64/16A cells can be repurposed with additional antibodies to target new tumor antigens, and (iv) cryopreserved, armed iNK-CD64/16A are capable of sustained ADCC in a tumor xenograft model under saturating levels of human IgG. Discussion iNK-CD64/16A cells allow for a flexible use of antibodies (antibody arming and antibody targeting), and an “off-the-shelf” platform for multi-antigen recognition to overcome limitations of adoptive cell therapies expressing fixed antigen receptors leading to cancer relapse due to antigen escape variants.
BackgroundAntibody therapies can direct natural killer (NK) cells to tumor cells, tumor-associated cells, and suppressive immune cells to mediate antibody-dependent cell-mediated cytotoxicity (ADCC). ...This antigen-specific effector function of human NK cells is mediated by the IgG Fc receptor CD16A (FcγRIIIA). Preclinical and clinical studies indicate that increasing the binding affinity and avidity of CD16A for antibodies improves the therapeutic potential of ADCC. CD64 (FcγRI), expressed by myeloid cells but not NK cells, is the only high affinity IgG Fc receptor and is uniquely capable of stably binding to free monomeric IgG as a physiological function. We have reported on the generation of the FcγR fusion CD64/16A, consisting of the extracellular region of CD64 and the transmembrane and cytoplasmic regions from CD16A, retaining its signaling and cellular activity. Here, we generated induced pluripotent stem cell (iPSC)-derived NK (iNK) cells expressing CD64/16A as a potential adoptive NK cell therapy for increased ADCC potency.MethodsiPSCs were engineered to express CD64/16A as well as an interleukin (IL)-15/IL-15Rα fusion (IL-15RF) protein and differentiated into iNK cells. iNK cells and peripheral blood NK cells were expanded using irradiated K562-mbIL21-41BBL feeder cells and examined. NK cells, ovarian tumor cell lines, and therapeutic monoclonal antibodies were used to assess ADCC in vitro, performed by a DELFIA EuTDA assay or in real-time by IncuCyte assays, and in vivo. For the latter, we developed a xenograft mouse model with high circulating levels of human IgG for more physiological relevance.ResultsWe demonstrate that (1) iNK-CD64/16A cells after expansion or thaw from cryopreservation can be coupled to therapeutic antibodies, creating armed iNK cells; (2) antibody-armed iNK-CD64/16A cells can be redirected by added antibodies to target new tumor antigens, highlighting additional potential of these cells; (3) cytokine-autonomous activity by iNK-CD64/16A cells engineered to express IL-15RF; and that (4) antibody-armed iNK-CD64/16A cells thawed from cryopreservation are capable of sustained and robust ADCC in vitro and in vivo, as determined by using a modified tumor xenograft model with high levels of competing human IgG.ConclusionsiNK cells expressing CD64/16A provide an off-the-shelf multiantigen targeting platform to address tumor heterogeneity and mitigate antigen escape.
Select subsets of immune effector cells have the greatest propensity to mediate antitumor responses. However, procuring these subsets is challenging, and cell-based immunotherapy is hampered by ...limited effector-cell persistence and lack of on-demand availability. To address these limitations, we generated a triple-gene-edited induced pluripotent stem cell (iPSC). The clonal iPSC line was engineered to express a high affinity, non-cleavable version of the Fc receptor CD16a and a membrane-bound interleukin (IL)-15/IL-15R fusion protein. The third edit was a knockout of the ecto-enzyme CD38, which hydrolyzes NAD+. Natural killer (NK) cells derived from these uniformly engineered iPSCs, termed iADAPT, displayed metabolic features and gene expression profiles mirroring those of cytomegalovirus-induced adaptive NK cells. iADAPT NK cells persisted in vivo in the absence of exogenous cytokine and elicited superior antitumor activity. Our findings suggest that unique subsets of the immune system can be modeled through iPSC technology for effective treatment of patients with advanced cancer.
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•iADAPT NK cells and adaptive NK cells share metabolic and transcriptional features•iADAPT NK cells are cytokine autonomous•iADAPT NK cells display enhanced innate immune function
Optimized iPSC-derived NK (iNK) cells have been developed for on-demand cancer immunotherapy. Here, Cichocki and colleagues describe a triple-gene-edited iNK cell product, termed iADAPT NK, which persists and functions in vivo in the absence of exogenous cytokines and can be combined with therapeutic antibodies for enhanced tumor targeting.
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Background: Recombinant human (rh) IL-15, the homeostatic factor for natural killer (NK) cells, is being clinically developed, but it has little antitumor activity alone. B7H3 (CD276) is an ...immune checkpoint inhibitor that is associated with poorer prognosis and is highly-expressed on prostate cancer. NK cells can be given as allogeneic products and, unlike T cells, do not induce cytokine-release syndrome or neurotoxicity. Here we developed a B7H3 targeting Tri-Specific Killer Engager (TriKE) as a novel dual camelid (cam) TriKE containing WT IL-15 and two cam engagers targeting CD16 on NK cells and B7H3 on tumor targets, making NK cells antigen specific. We have previously demonstrated that NK cells infiltrate prostate cancer tumors. As proof of concept, a clinical trial of a CD33-targeted TriKE for AML (NCT03214666) induced endogenous NK cell expansion and activation in refractory AML patients. Methods: Prostate cancer cell lines or patient-derived xenografts (PDX) were incubated with healthy donor or prostate cancer patient NK cells with or without B7H3 TriKE. PDX were propagated in NSG mice and then homogenized for in vitro assays. NK cell function was measured by flow cytometry and IncuCyte live tumor imaging assays. Castration-sensitive and -resistant prostate cancer (CSPC and CRPC, respectively) patient or normal donor peripheral blood mononuclear cells (PBMC) were immunophenotyped using 42-marker NK specific or broad immune cytometry time-of-flight (CyToF) panels. Results: B7H3 TriKE resulted in a dose-dependent proliferation of NK cells, but not T cells. This was in marked contrast to rhIL-15, which stimulated both cell types. camB7H3 was broadly expressed on prostate, head and neck, ovarian and glioblastoma cancers as well as multiple myeloma. We observed a B7H3 TriKE dose-dependent increase in CD107a degranulation and inflammatory cytokines to all B7H3 positive targets that was highly specific, with no response seen with B7H3 negative hematologic targets and CRISPR KO controls. Compared to rhIL-15, B7H3 TriKE given at molar equivalent dosing induced B7H3+ target killing in in a dose-dependent manner above that seen with rhIL-15 induced natural cytotoxicity. Using CSPC and CRPC patient PBMC (n=11-15), we demonstrated that there is no significant loss in NK cell degranulation/interferon gamma production or target cytotoxicity compared to healthy age- and sex-matched donors when treated with B7H3 TriKE. CyToF analysis of CSPC and CRPC patient PBMC is ongoing. In vivo activity in xenogeneic models of human tumor is underway. Conclusions: B7H3 TriKE delivers an NK cell specific IL-15 signal to expand NK cells and is highly specific against B7H3+ prostate cancer cell lines and PDX. Clinical-grade B7H3 TriKE is undergoing validation and a Phase 1/2 clinical trial is planned to open in the 3rd Quarter of 2024 for CRPC patients progressing on one or more therapies the CRPC setting.
Natural killer (NK) cells are innate lymphocytes that target malignant cells via non-clonotypic receptors to induce natural cytotoxicity and that recognize tumor-bound antibodies to induce ...antibody-dependent cell-mediated cytotoxicity (ADCC). Human NK cells exclusively mediate ADCC through the IgG Fc receptor, CD16A, and studies have demonstrated that increasing the binding affinity between CD16A and therapeutic monoclonal antibodies (mAbs), mediated by the high-affinity 158V polymorphism, can augment clinical efficacy. Given the exquisite specificity and diverse antigen detection of anti-tumor mAbs, we sought to arm iPSC-derived NK (iNK) cells expressing a high-affinity recombinant FcγR with various mAbs as unique tumor-targeting strategy for various malignancies.
As a member of the FcγR family, CD64 (FcγRI) possesses the highest affinity and can uniquely facilitate antibody preabsorption but it is normally expressed by myeloid cells. To leverage CD64 in NK cells, we developed a novel FcγR recombinant fusion comprising the extracellular region of CD64 with the transmembrane and intracellular regions of other NK cell activating receptors, including CD16A (CD64/16A) (figure 1A). The recombinant CD64/16A engineered into a clonal master induced pluripotent stem cell (iPSC) line for mass production of off-the-shelf iPSC-derived CD64/16A NK (iNK-CD64/16A) cells, can be armed with mAbs, including various combinations thereof to enable multi-antigen targeting and to address tumor heterogeneity (figures 1B and 2).
To determine optimal binding and FcR saturation of iNK-CD64/16 cells, rituximab (anti-CD20 therapeutic mAb) was added in a two-hour preabsorbtion assay (figure 3A). Using an in vitro Delfia® ADCC assay, we show that iNK-CD64/16A cells mediated ADCC against Raji cells, a Burkitt Lymphoma cell line, when the iNKs were preabsorbed and armed with rituximab (figure 3B). Considering the high-affinity state of CD64, we examined the effects of free IgG on ADCC by iNK-CD64/16A cells. Using an IncuCyte® Live Cell Analysis, ADCC was evaluated in the presence of purified human IgG. Despite the high levels of excess IgG, iNK-CD64/16A cells mediated efficient ADCC when rituximab was either added to the assay (figure 4A) or preabsorbed to the cells (figure 4B), demonstrating that saturating levels of free IgG did not prevent ADCC in either setting. To determine the ability of preabsorbed and armed iNK-CD64/16 cells to retain rituximab and perform serial killing, we performed a sequential killing assay using an IncuCyte® Live Cell Analysis where preabsorbed iNK-CD64/16A cells were thawed and co-cultured with or without Raji cells for 48 hours, followed by a second round of co-culture. As shown in figure 5, iNK-CD64/16A cells armed with rituximab retain ADCC capacity and perform serial killing for an extended time.
To establish that iNK-CD64/16A cells can be armed with assorted therapeutic mAbs to target other tumor-associated antigens, we next determined the ability of iNK-CD64/16A cells preabsorbed and armed with anti-HER2 mAb, trastuzumab, to target the adenocarcinoma ovarian cancer cell line SKOV-3. Indeed iNK-CD64/16A cells armed with preabsorbed trastuzumab were able to effectively kill SKOV-3 cells via in vitro ADCC by IncuCyte® Live Cell Analysis (figure 6). We next investigated in vivo ADCC using NSG mice implanted with 3x10 5 SKOV-3 cells expressing firefly luciferase intraperitoneally (IP). 10 million iNK-CD64/16A with or without preabsorbed trastuzumab were injected IP (figure 7A), and a significant reduction in tumor volume in animals treated with iNK-CD64/16A cells armed with trastuzumab compared to unarmed iNK-CD64/16A cells (figure 7B).
Collectively, our data show that iNK-CD64/16A cells can be armed with various therapeutic mAbs through a unique preabsorption strategy to mediate a potent and durable ADCC activity. The versatility of mAb-armed iNK-CD64/16A cells is being further investigated in various preclinical models to further elucidate the potential of this approach to overcome antigen escape and address tumor heterogeneity.
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Lee: Fate Therapeutics, Inc: Current Employment. Chu: Fate Therapeutics: Current Employment. Rogers: Fate Therapeutics: Current Employment. Bjordahl: Fate Therapeutics: Current Employment. Hosking: Fate Therapeutics: Current Employment. Shirinbak: Fate Therapeutics, Inc.: Current Employment. Miller: Fate Therapeutics, Inc: Consultancy, Patents & Royalties, Research Funding; GT Biopharma: Consultancy, Patents & Royalties, Research Funding; Vycellix: Consultancy; ONK Therapeutics: Honoraria, Membership on an entity's Board of Directors or advisory committees; Magenta: Membership on an entity's Board of Directors or advisory committees; Sanofi: Membership on an entity's Board of Directors or advisory committees; Wugen: Membership on an entity's Board of Directors or advisory committees. Valamehr: Fate Therapeutics, Inc.: Current Employment. Walcheck: Fate Therapeutics: Research Funding.
Natural killer (NK) cells are innate cytotoxic lymphocytes. They target malignant cells via non-clonotypic receptors to induce natural cytotoxicity and also recognize tumor-bound antibodies to induce ...antibody-dependent cell-mediated cytotoxicity (ADCC). While ADCC by NK cells is a key mechanism of several clinically successful therapeutic monoclonal antibodies (mAbs), most patients exhibit or acquire resistance to mAb therapies. ADCC by human NK cells is exclusively mediated by the IgG Fc receptor, CD16A (FcγRIIIA). Studies have demonstrated that increasing the binding affinity between CD16A and therapeutic mAbs can augment their clinical efficacy. Given the exquisite specificity and diverse antigen detection of anti-tumor mAbs, we are interested in enhancing the ADCC potency of NK cell-based therapies for various malignancies.
CD64 is the only high affinity FcγR family member and binds to the same IgG isotypes as CD16A (IgG1 and IgG3) but with > 30-fold higher affinity. CD64 (FcγRI) is normally expressed by certain myeloid cells but not by NK cells. We generated a recombinant version of this receptor consisting of the extracellular region of CD64 and the transmembrane and intracellular regions of human CD16A, referred to as CD64/16A (figure 1A). An important feature of CD64/16A is that due to its high affinity state, soluble monomeric anti-tumor mAbs can be pre-adsorbed to engineered NK cells expressing the recombinant FcγR, and these pre-absorbed mAbs can be switched or mixed for universal tumor antigen targeting (figure 1B). The engineered NK cells used in our study were derived from genetically edited and clonally derived induced pluripotent stem cells (iPSCs) through a series of stepwise differentiation stages (figure 2). Engineered iPSC-derived NK (iNK) cells can be produced in a uniform and clinically scalable manner (figure 2).
In Figure 3, using an in vitro Delfia® ADCC assay, we show that iNK-CD64/16A cells mediated ADCC against SKOV3 cells, an ovarian adenocarcinoma cell line, in the presence of the anti-HER2 therapeutic mAb trastuzumab (Herceptin) or anti-EGFR1 therapeutic mAb cetuximab (Erbitux), when either added to the assay or pre-adsorbed to the iNK cells (figure 3). Considering the high affinity state of CD64, we examined the effects of free IgG in human serum on ADCC by iNK-CD64/16A cells. Using an IncuCyte® Live Cell Analysis System, ADCC was evaluated in the presence or absence of 5% human AB serum, in which free IgG was approximately 50-fold higher than the IgG saturation level of the CD64/16A receptors on iNK cells (data not shown). Despite the high levels of excess free IgG, iNK-CD64/16A cells mediated efficient ADCC when Herceptin was either added to the assay or pre-adsorbed to the cells (figure 4). ADCC assays were also performed with Raji cells, a Burkitt lymphoma cell line, as target cells and the therapeutic mAb rituximab (Rituxan). iNK-CD64/16A cells were added with or without pre-adsorbed Rituxan and the assay was performed in 10% AB serum. Again, iNK-CD64/16A cells mediated effective target cell killing in the presence of serum IgG (figure 5), demonstrating that saturating levels of free IgG did not prevent ADCC.
To determine if we can further optimize the function of recombinant CD64, we engineered CD64 with the transmembrane regions of CD16A or NKG2D and signaling/co-signaling domain from CD28, 2B4 (CD244), 4-1BB (CD137), and CD3ζ (figure 6). CD64/16A signals by non-covalent association with the immunoreceptor tyrosine-based activation motif (ITAM)-containing signaling adapters CD3ζ and FcRγ found in the cell membrane, whereas the other recombinant CD64 constructs use ITAM and non-ITAM regions to mediate their signaling. The various recombinant CD64 constructs were initially expressed in NK92 cells (lacks expression of endogenous FcγRs) (figure 7). Using the Delfia® ADCC assay system, we examined the function of each recombinant CD64 construct and found all combinations are able to effectively induce ADCC (figure 8). We are in the process of generating iNK cells with these constructs and testing their ability to kill hematologic and solid tumors in vitro and in vivo. Our goal is to utilize this docking approach to pre-absorb mAbs to iNK cells for adoptive cell therapy. The mAbs would thus provide tumor-targeting elements that could be exchanged as a means of preventing tumor cell escape by selectively and easily altering NK cell specificity for tumor antigens.
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Lee:Fate Therapeutics, Inc.: Current Employment. Chu:Fate Therapeutics: Current Employment. Abujarour:Fate Therapeutics, Inc: Current Employment. Dinella:Fate Therapeutics: Current Employment. Rogers:Fate Therapeutics, Inc: Current Employment. Bjordahl:Fate Therapeutics: Current Employment. Miller:Fate Therapeutics, Inc: Consultancy, Patents & Royalties, Research Funding; Nektar: Honoraria, Membership on an entity’s Board of Directors or advisory committees; Vycellix: Consultancy; GT Biopharma: Consultancy, Patents & Royalties, Research Funding; Onkimmune: Honoraria, Membership on an entity’s Board of Directors or advisory committees. Valamehr:Fate Therapeutics, Inc: Current Employment, Current equity holder in publicly-traded company. Walcheck:Fate Therapeutics: Consultancy, Research Funding.
Abstract
Worldwide, Head and Neck Squamous Cell Carcinomas (HNSCC) account for about 900,000 cases and 400,000 deaths. In some settings, like Fanconi anemia (FA), patients receive curative treatments ...(allogeneic stem cell transplantation), only to develop HNSCC in early adulthood at a high rate of incidence. Current treatment strategies for non-FA HNSCC patients include surgery, chemotherapy and radiotherapy. However, these are not viable treatment options for FA HNSCC patients due to their low tolerance for the high toxicity levels of chemotherapy and radiation. Therefore, there is a critical need for novel and targeted therapeutic interventions for the treatment of FA HNSCC patients.
B7H3, a checkpoint member of the B7 and CD28 families, is overexpressed on several solid tumors but is absent or not expressed on healthy tissues. It is a promising target for immunotherapy, and recent basket trials, particularly in the prostate cancer, have demonstrated strong clinical signals. Here we developed and tested the ability of GTB-5550, a tri-specific killer engager (TriKE) that includes a B7H3 targeting component, to direct NK cell killing to B7H3-expressing Head and Neck cancer targets. This TriKE molecule includes an NK cell engaging domain containing a humanized camelid nanobody against CD16, a camelid nanobody against B7H3 and a wild type IL-15 sequence between the two engagers. We assessed B7H3 expression by flow cytometry of wild-type HNSCC cells and a paired version with a CRISPER KO of the FANCA gene and determined that the KO had no effect on B7H3 expression. Thus, GTB-5550 activity against HNSCC should be present on both normal HNSCC and FA-HNSCC settings.
NK cell responses against HNSCC lines in the presence of GTB-5550 were assessed through either flow cytometry based functional assays, to evaluate NK cell degranulation and cytokine secretion, or IncuCyte imaging assays, to directly assess target killing. NK cell degranulation and IFN-gamma production of GTB-3550-treated samples were higher compared to that of control samples treated with B7H3 single domain or IL-15 alone. GTB-5550 also induced more HNSCC target cell killing by NK cells compared to treatment with the B7H3 single domain or IL-15 alone irrespective of the FANCA gene. Ongoing experiments will evaluate functionality of GTB-5550 on FA patient samples as well as in spheroid assays. Taken together, this data shows that a GTB-5550 is able to drive NK cell activity against B7H3-expressing HNSCC cells, which presents potential for a B7H3-targeted TriKE to be used to be implemented clinically to treat HNSCC or FA-HNSCC patients.
Citation Format: Melissa Khaw, Zachary Davis, Nicholas Zorko, Greg Berk, Gavin Choy, Margaret MacMillan, Martin Felices, Jeffrey S. Miller. GTB-5550 (cam16-IL15-camB7H3) trispecific killer engager (TriKE®) drives natural killer cell activation and antibody dependent cellular cytotoxicity against head and neck squamous cell carcinomas abstract. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 3435.
Abstract With an annual incidence rate exceeding 660,000 cases, and a death toll surpassing 325,000 per year, head and neck cancer (HNC) ranks as the seventh most common cancer in the world. Surgery, ...radiation and chemotherapy are used to treat HNC patients with modest and variable clinical success. However, these treatments prove less effective for human papillomavirus negative (HPV-) HNC patients, a subset of HNC patients with markedly worse prognosis. While significant advancements have been made in cancer immunotherapy over the past decade, its success also remains elusive for HNC due to factors such as the hypoxic solid tumor microenvironment (TME). To address the critical need for an improved therapeutic intervention, we leveraged the ability of natural killer (NK) cells in killing cancer cells without prior sensitization by developing a novel tri-specific killer engager (TriKE) that can direct NK cell killing of tumor within the hypoxic solid TME. The TriKE is composed of three domains: a humanized nanobody arm binding the activating receptor CD16 on NK cells, an interleukin (IL)-15 moiety that can drive expansion of NK cells, and a nanobody arm binding B7H3, a protein which high expression can be negatively correlated with overall survival of HPV- HNC patients. B7H3 is a prime target candidate because it is highly expressed on HPV- HNC cells, but minimally expressed on healthy tissues. In vitro testing using HPV- HNC patient blood samples revealed that B7H3 TriKE enhances activation (measured by NK cell degranulation and interferon-gamma production) and expansion of NK cells from these patients at levels equivalent to those observed in healthy controls. Furthermore, B7H3 TriKE is efficacious in its ability to drive high NK cell cytotoxicity in both acute (<48-hours) and prolonged (7-days) hypoxic (1% oxygen) models of HNC. Under acute hypoxia, B7H3 TriKE induces significantly more killing of targets by NK cells compared to IL-15 treatment, where NK cell cytotoxicity is impaired. In addition, B7H3 TriKE can boost the killing efficacy of NK cells exposed to prolonged hypoxia, surpassing limitations seen with IL-15 treatment. These findings strongly suggest that the B7H3 TriKE can bypass hypoxic suppression of NK effector functions in the solid TME. In vivo studies using immunocompromised mice engrafted with HPV- HNC cells revealed that B7H3 TriKE treatment significantly extends the survival of mice, compared to IL-15 treatment. Moreover, NK cells persisted in the blood of B7H3 TriKE-treated mice 28 days post-NK cell injection, highlighting the promising clinical translation of this immunotherapy. More in-depth characterization of NK cells from HPV- HNC patients are underway but altogether, these robust pre-clinical data present a novel avenue for the management of HNC for these patients. We plan to translate results from these studies to clinical trials in fall 2024. Citation Format: Melissa Khaw, Nicholas A. Zorko, Carly Selleck, Laura Bendzick, Zachary Davis, Peter Hinderlie, Madison Shackelford, Ann Lu, James Lim, Naomi Fujioka, Margaret MacMillan, John Wagner, Martin Felices, Jeffrey S. Miller. Enhancing NK cell therapy for head and neck cancer within the solid tumor microenvironment using a B7H3-targeting tri-specific killer engager (TriKE) abstract. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 1241.
Results from prospective studies on premenopausal serum hormone levels in relation to breast cancer risk have been inconclusive, especially with regard to tumor subtypes. Using a case–control study ...nested within the prospective European Prospective Investigation into Cancer and Nutrition (EPIC) cohort (801 breast cancer cases and 1,132 matched control subjects), we analyzed the relationships of prediagnostic serum estradiol, free estradiol, progesterone, testosterone, free testosterone and sex hormone‐binding globulin (SHBG) levels with the risk of breast cancer by estrogen and progesterone receptor‐positive and ‐negative breast tumors and by age at diagnoses. Higher prediagnostic serum levels of testosterone and free testosterone were associated with an increased overall risk of breast cancer ORQ4‐Q1 = 1.56 (95% CI 1.15–2.13), ptrend = 0.02 for testosterone and ORQ4‐Q1 = 1.33 (95% CI 0.99–1.79), ptrend = 0.04 for free testosterone, but no significant risk association was observed for estradiol, free estradiol, progesterone and SHBG. Tests for heterogeneity between receptor‐positive and ‐negative tumors were not significant. When analysis were stratified by age at tumor diagnosis, the odds ratios observed for estradiol were stronger and borderline significant for breast cancer diagnosed at age less than 50 ORQ4‐Q1 = 1.32 (95% CI 0.87–2.01), ptrend = 0.05 compared to breast cancer diagnosed at age 50 or above ORQ4‐Q1 = 0.94 (95% CI 0.60–1.47), ptrend = 0.34, phet = 0.04. In conclusion, our data indicate that higher premenopausal circulating testosterone levels are associated with an increased risk of developing breast cancer, but do not show a significant association of estradiol or progesterone with breast cancer risk, overall, by menstrual cycle phase or by tumor receptor status, although a possible risk increase with higher estradiol levels for tumors diagnosed before age 50 was seen.
What's new?
Sex hormones have often been connected with the development of breast cancer, and estrogens have clear pro‐proliferative effects on breast cancer cells. In this large prospective study, the authors underscore a direct association of premenopausal levels of testosterone with subsequent breast cancer risk. By contrast, no direct relationship between premenopausal estrogen and progesterone levels with increased breast cancer risk was observed although a weak association between higher estradiol levels and increased risk for tumors diagnosed before age 50 was noted. The authors point to the possibility that a conversion from androgen to estrogen might take place in the breast that may mechanistically explain the increased risk in breast cancer development when androgens are high.
In addition to HPV, high parity and hormonal contraceptives have been associated with cervical cancer (CC). However, most of the evidence comes from retrospective case-control studies. The aim of ...this study is to prospectively evaluate associations between hormonal factors and risk of developing cervical intraepithelial neoplasia grade 3 (CIN3)/carcinoma in situ (CIS) and invasive cervical cancer (ICC).
We followed a cohort of 308,036 women recruited in the European Prospective Investigation into Cancer and Nutrition (EPIC) Study. At enrollment, participants completed a questionnaire and provided serum. After a 9-year median follow-up, 261 ICC and 804 CIN3/CIS cases were reported. In a nested case-control study, the sera from 609 cases and 1,218 matched controls were tested for L1 antibodies against HPV types 11,16,18,31,33,35,45,52,58, and antibodies against Chlamydia trachomatis and Human herpesvirus 2. Multivariate analyses were performed to estimate hazard ratios (HR), odds ratios (OR) and corresponding 95% confidence intervals (CI). The cohort analysis showed that number of full-term pregnancies was positively associated with CIN3/CIS risk (p-trend = 0.03). Duration of oral contraceptives use was associated with a significantly increased risk of both CIN3/CIS and ICC (HR = 1.6 and HR = 1.8 respectively for ≥ 15 years versus never use). Ever use of menopausal hormone therapy was associated with a reduced risk of ICC (HR = 0.5, 95%CI: 0.4-0.8). A non-significant reduced risk of ICC with ever use of intrauterine devices (IUD) was found in the nested case-control analysis (OR = 0.6). Analyses restricted to all cases and HPV seropositive controls yielded similar results, revealing a significant inverse association with IUD for combined CIN3/CIS and ICC (OR = 0.7).
Even though HPV is the necessary cause of CC, our results suggest that several hormonal factors are risk factors for cervical carcinogenesis. Adherence to current cervical cancer screening guidelines should minimize the increased risk of CC associated with these hormonal risk factors.
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DOBA, IZUM, KILJ, NUK, PILJ, PNG, SAZU, SIK, UILJ, UKNU, UL, UM, UPUK