Juniper Publishers: Future Directions for Immunotherapy in Ovarian Cancer
JUNIPER PUBLISHERS- JOURNAL OF GYNECOLOGY AND WOMEN’S
HEALTH
Journal of Gynecology and Women’s Health-Juniper
Publishers
Authored by John Nemunaitis*
Immunotherapies involving cellular and checkpoint
inhibitor approaches are under investigation in ovarian cancer and
preliminary results suggest evidence of clinical benefit. Assumptions in
the past of low immunogenicity of ovarian cancer appear to be changing
as our new awareness of immune function activity with ovarian cancer,
tumor microenvironment and molecular signaling is becoming evident.
Anticancer response, survival advantage, and developing program
progression have been observed in immunotherapy approaches involving
ovarian cancer patients. Herein, we review current progress of cellular
immunotherapy and checkpoint inhibitor approaches in ovarian cancer.
Keywords: Immunotherapy; Molecular signaling; Checkpoint inhibitorIntroduction
A recent open-label Phase IIa study of Vigil immunotherapy (n=31) vs SOC observation (n=11) involving high risk stage IIIc/IV ovarian cancer patients in clinical complete remission following surgical debulking and frontline chemotherapy has shown a decrease in tumor recurrence (61% vs 82%) and increase in median progression free survival 604 vs 377 days (p=0.033, HR 0.43, 95% CI (0.19, 0.96) [1] to Vigil immunotherapy. Clinical immune response to Vigil was measured by tracking circulating immune effector cells against autologous tumor before and sequentially after Vigil via ÎłIFN-ELISPOT assay. All 31 Vigil treated patients and 10/10 control patients (1 unevaluable) were baseline negative. After Vigil administration, all patients showed ÎłIFN-ELISPOT conversion to positive with induction of tumor-antigen specific T effector cells. Interestingly 7/8 control patients, of which all were negative at time of relapse, converted to ÎłIFN-ELISPOT positive after cross-over to Vigil therapy (as per trial design) after relapse. A currently ongoing double blind randomized study in the same patient population is investigating further clinical benefit and immune analysis of Vigil (NCT02346747).
Multiple check point inhibitors are also currently in
development in the maintenance setting or in recurrent,
platinum-resistant or refractory ovarian cancer. Response rates in
ovarian cancer to anti-CTLA-4 therapy have been observed [2] but at slightly lower frequency than PD-1/PD-L1 inhibitors [3].
Given this and a higher perceived toxic response to anti-CTLA-4
inhibitors over PD-1/PD-L1 inhibitors most clinical explanation in
ovarian and other women’s cancers is involving PD-1/PD-L1 inhibitors.
Results of an initial clinical trial of an anti-PD-1 antibody,
nivolumab, published by Hamanishi et al. [3]
reported on response rate of 15% in 20 advanced ovarian cancer patients
and a median PFS of 3.5 months across 2 cohorts (1 or 3 mg/ kg
nivolumab dose) [3]. Other studies involving pembrolizumab (ORR 11.5%, 3/26) [4] and avelumab (ORR 11%, 8/75) [5]
have shown similar response activity. Hamanishi et al also reported
that high PD-L1 expression in ovarian cancer cells is associated with a
poor prognosis [6].
Another hypothesis supported by preclinical and clinical data is that
effective anticancer response following anti-PD-1/PD-L1 therapy requires
the intratumoral presence of pre-existing tumor-specific CTLs that are
held in check by the PD-1/PD-L1 pathway. Conversely, in the absence of
infiltrating activated T cells, there is only limited rationale for
checkpoint inhibitor therapy targeting PD-1/PD-L1.
Tumeh et al. [7]
reported on 46 patients with advanced melanoma who were treated with
single agent PD-1 inhibitor pembrolizumab demonstrating higher levels
pre-existing CD8 positive, PD-1 positive and PD-L1
positive cells at the invasive tumor margin and in the tumor in the
responding patient’s on-study tumor biopsies vs non-responders [7]. Herbst et al. [8]
reported on 277 patients treated with the PD-L1 inhibitor MPDL3280A and
noted that across tumor types, high PD-L1 ligand expression on tumor
cells, and particularly on tumor infiltrating immune cells (TILs), was
predictive of objective response by RECIST 1.1 criteria to PD-L1
inhibitor treatment [8].
This evidence suggestsPD-L1/PD-1 inhibitor activity being significantly
correlated with high activated T cell involvement/ migration into the
autologous tumor bed.
In addition, PD-1 expression can be adaptively
upregulated following T-cell activation, suggesting that PD-L1
expression, a mechanism of resistance to immune mediated tumor killing,
is also predictive of response to PD-1/-L1 inhibitors and other
immunotherapies [8].
Conclusion
Vigil upregulation of circulating T effector cell
activity against autologous tumor cells is induced by a novel mechanism
involving three pathways: 1) blockade of tumor-induced immune escape by
bi-shRNAfurin knockdown resulting in marked local tumor reduction in
TGFβ1 and 2, 2) GMCSF-induced antigen presentation and dendritic cell
activation, 3) evidence of TCR induction to relevant tumor neoantigens
by utilizing patient’s autologous tumor cells. As such, it appears
rational to explore the effect of Vigil in combination with PD-1/PD-L1
inhibitor therapy in advanced ovarian cancer patients. Other preclinical
studies in Panc02 xenograft mouse models support the rationale of
combining all three components of anticancer immune response: a) GMCSF
increase, b) TGFβ knockdown, and c) PD-1/-L1 blockade [9].
Tumor burden was significantly reduced and overall
survival prolonged in Panc02 or KPC xenograft mice treated with the
combination of GVAX, a systemic TGFβa and PD-1 antibody compared to
monotherapy of each, or the combination of GVAX and TGFβa only. Further,
the combination of cyclophosphamide/ GVAX + monoclonal antibody
targeting PD-1 significantly increased the percentage of IFNÎł-producing T
cells within TILs as well as greater CD8+ T cell IFNÎł secretion
compared to either cyclophosphamide/GVAX or anti-PD-1 alone [10].
A similar murine study has been initiated in CT26 xenograft mice
treated with GVAX +/- TGFβa and murine Vigil-CT26 +/- systemic TGFβa to
explore and compare the tumor response, survival, and immune functions
following either immunotherapy regimen vs. no treatment.
With the rationale of previously published preclinical results [9]
and this ongoing experiment, supporting a combination studies of an
anti-PD-L1 antibody, Atezolizumab with Vigil a study in
platinum-refractory or resistant, recurrent ovarian cancer is currently
in future development. Endpoints are the evaluation of safety and
anti-tumor activity of the combination in women with advanced ovarian or
gynecological cancers, (ie. primary uterine, endometrial), biomarker
characterization for the anti-tumor systemic immune response generated
by Vigil alone, atezolizumab alone or the combination of the two agents,
tumor response and survival.
Acknowledgement
The authors would like to acknowledge Brenda Marr and
Michelle Richey for their competent and knowledgeable assistance in the
preparation of the manuscript.
Disclosure/Conflict of Interest
The following authors are shareholders in Gradalis,
Inc.: John Nemunaitis. The authors have no other relevant affiliations
or financial involvement with any organization or entity with a
financial interest in or financial conflict with the subject matter or
materials discussed in the manuscript.
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