Neutralizing Antibodies Impair the Oncolytic Efficacy of Reovirus but Permit Effective Combination with T cell-Based Immunotherapies

Reovirus type 3 Dearing (Reo), manufactured for clinical application as pelareorep, is an attractive anticancer agent under evaluation in multiple phase 2 clinical trials for the treatment of solid tumors. It elicits its anticancer efficacy by inducing both oncolysis and intratumoral T-cell influx. Because most people have been preexposed to Reo, neutralizing antibodies (NAb) are prevalent in patients with cancer and might present a barrier to effective Reo therapy. Here, we tested serum of patients with cancer and healthy controls (n = 100) and confirmed that Reo NAbs are present in >80% of individuals. To investigate the effect of NAbs on both the oncolytic and the immunostimulatory efficacy of Reo, we established an experimental mouse model with Reo preexposure. The presence of preexposure-induced NAbs reduced Reo tumor infection and prevented Reo-mediated control of tumor growth after intratumoral Reo administration. In B cell-deficient mice, the lack of NAbs provided enhanced tumor growth control after Reo monotherapy, indicating that NAbs limit the oncolytic capacity of Reo. In immunocompetent mice, intratumoral T-cell influx was not affected by the presence of preexposure-induced NAbs and consequently, combinatorial immunotherapy strategies comprising Reo and T-cell engagers or checkpoint inhibitors remained effective in these settings, also after a clinically applied regimen of multiple intravenous pelareorep administrations. Altogether, our data indicate that NAbs hamper the oncolytic efficacy of Reo, but not its immunotherapeutic capacity. Given the high prevalence of seropositivity for Reo in patients with cancer, our data strongly advocate for the application of Reo as part of T cell-based immunotherapeutic strategies.

Erratum: A library of cancer testis specific T cell receptors for T cell receptor gene therapy

[This corrects the article DOI: 10.1016/j.omto.2022.11.007.].

Neoantigen Targetability in Progressive Advanced Melanoma

PURPOSE

The availability of (neo)antigens and the infiltration of tumors by (neo)antigen-specific T cells are crucial factors in cancer immunotherapy. In this study, we aimed to investigate the targetability of (neo)antigens in advanced progessive melanoma and explore the potential for continued T-cell-based immunotherapy.

EXPERIMENTAL DESIGN

We examined a cohort of eight patients with melanoma who had sequential metastases resected at early and later time points. Antigen-presenting capacity was assessed using IHC and flow cytometry. T-cell infiltration was quantified through multiplex immunofluorescence. Whole-exome and RNA sequencing were conducted to identify neoantigens and assess the expression of neoantigens and tumor-associated antigens. Mass spectrometry was used to evaluate antigen presentation. Tumor recognition by autologous T cells was assessed by coculture assays with cell lines derived from the metastatic lesions.

RESULTS

We observed similar T-cell infiltration in paired early and later metastatic (LM) lesions. Although elements of the antigen-presenting machinery were affected in some LM lesions, both the early and later metastasis-derived cell lines were recognized by autologous T cells. At the genomic level, the (neo)antigen landscape was dynamic, but the (neo)antigen load was stable between paired lesions.

CONCLUSIONS

Our findings indicate that subsequently isolated tumors from patients with late-stage melanoma retain sufficient antigen-presenting capacity, T-cell infiltration, and a stable (neo)antigen load, allowing recognition of tumor cells by T cells. This indicates a continuous availability of T-cell targets in metastases occurring at different time points and supports further exploration of (neo)antigen-specific T-cell-based therapeutic approaches for advanced melanoma.

A library of cancer testis specific T cell receptors for T cell receptor gene therapy

To increase the number of cancer patients that can be treated with T cell receptor (TCR) gene therapy, we aimed to identify a set of high-affinity cancer-specific TCRs targeting different melanoma-associated antigens (MAGEs). In this study, peptides derived from MAGE genes with tumor-specific expression pattern were identified by human leukocyte antigen (HLA) peptidomics. Next, peptide-HLA tetramers were generated, and used to sort MAGE-specific CD8+ T cell clones from the allogeneic (allo) HLA repertoire of healthy donors. To evaluate the clinical potential, most potent TCRs were sequenced, transferred into peripheral blood-derived CD8+ T cells, and tested for antitumor efficacy. In total we identified, seven MAGE-specific TCRs that effectively target MAGE-A1, MAGE-A3, MAGE-A6, and MAGE-A9 in the context of HLA-A∗01:01, -A∗02:01, -A∗03:01, -B∗07:02, -B∗35:01, or -C∗07:02. TCR gene transfer into CD8⁺ T cells resulted in efficient reactivity against a variety of different tumor types, while no cross-reactivity was detected. In addition, major in vivo antitumor effects of MAGE-A1 specific TCR engineered CD8⁺ T cells were observed in the orthotopic xenograft model for established multiple myeloma. The identification of seven MAGE-specific TCRs expands the pool of cancer patients eligible for TCR gene therapy and increases possibilities for personalized TCR gene therapy.

The ABCs of Antigen Presentation by Stromal Non-Professional Antigen-Presenting Cells

Professional antigen-presenting cells (APCs), such as dendritic cells and macrophages, are known for their ability to present exogenous antigens to T cells. However, many other cell types, including endothelial cells, fibroblasts, and lymph node stromal cells, are also capable of presenting exogenous antigens to either CD8+ or CD4+ T cells via cross-presentation or major histocompatibility complex (MHC) class II-mediated presentation, respectively. Antigen presentation by these stromal nonprofessional APCs differentially affect T cell function, depending on the type of cells that present the antigen, as well as the local (inflammatory) micro-environment. It has been recently appreciated that nonprofessional APCs can, as such, orchestrate immunity against pathogens, tumor survival, or rejection, and aid in the progression of various auto-immune pathologies. Therefore, the interest for these nonprofessional APCs is growing as they might be an important target for enhancing various immunotherapies. In this review, the different nonprofessional APCs are discussed, as well as their functional consequences on the T cell response, with a focus on immuno-oncology.

Abstract A186: A new strategy to identify and expand tumor-reactive CD8 TILs in human solid tumors

The immune system can recognize and destroy tumor cells through T-cell mediated mechanisms. Hence, identifying tumor antigen-specific T-cells from cancer patients and expanding them in large numbers in vitro has important implications for immunotherapy diagnostics and therapeutics. Here we show that tumor-reactive T-cells are enriched in a subset of tumor-infiltrating CD8 T-cells (CD8 TILs) identified by co-expression of CD103 and CD39 both in primary and metastatic tumors. The CD103+CD39+ CD8 TILs are present at high frequencies in melanoma and mismatch repair-deficient colon cancer but at low frequencies in microsatellite stable (MSS) colon cancer and colorectal liver metastasis. This cell population displays a distinct T-cell receptor (TCR) repertoire, with T-cell clones expanded in the tumor but present at low frequencies in the periphery. Importantly, we show in a MSS colon cancer patient that a very low number of CD103+CD39+ CD8 TILs can be expanded in vitro and that those cells recognize tumor-specific neoantigens. Finally, patients with head and neck cancer whose CD8 TILs contained a higher frequency of CD103+CD39+ cells experienced a greater overall survival. Our work suggests that CD103+CD39+ CD8 TILs are key players in the patient’s antitumor response and describe an approach for detecting and expanding those cells, which will help improve adoptive TIL therapy for cancer patients.

Citation Format: Thomas Duhen, Rebekka Duhen, Ryan Montler, Tarsem Moudgil, Jitske van den Bulk, Bernard A. Fox, Shu-Ching Chang, Gary Grunkemeier, Els M.E. Verdegaal, Noel F. de Miranda, Rom Leidner, Richard B. Bell, Andrew D. Weinberg. A new strategy to identify and expand tumor-reactive CD8 TILs in human solid tumors [abstract]. In: Proceedings of the Fourth CRI-CIMT-EATI-AACR International Cancer Immunotherapy Conference: Translating Science into Survival; Sept 30-Oct 3, 2018; New York, NY. Philadelphia (PA): AACR; Cancer Immunol Res 2019;7(2 Suppl):Abstract nr A186.

Abstract B094: Successful identification of neoantigen-specific T-cell responses in low mutation burden colorectal cancers for personalized cancer vaccine development

Innovative treatment options are required to improve cure rates in advanced colorectal cancer patients. Immune checkpoint blockade therapy (anti-PD-1) was shown to be effective in colorectal cancers with high mutation burden (e.g., mismatch repair deficient) as antitumor reactivity is largely explained by the recognition of somatically mutated antigens (neoantigens). No immunotherapeutic strategies are currently available for patients diagnosed with low mutation burden colorectal cancer. We hypothesized that if neoantigen-reactive T-cells are present in low mutation burden patients, the latter could benefit from immunotherapeutic interventions that stimulate neoantigen recognition and the onset of a robust antitumor immune response.In order to detect neoantigens, whole exome and RNA next-generation sequencing analyses were performed in cancer and healthy tissues from five colorectal cancer patients. Corresponding neoepitopes were synthesized and tested for their ability to induce immune cell activation in T-cells isolated from the tumor tissue (TIL) and from peripheral blood. Neoantigen-specific T-cell responses were identified in the majority of patients that presented with tumors carrying 25 to 36 transcribed, non-synonymous variants. Up to six different neoantigens were recognized per tumor, which resulted in a higher detection rate than anticipated based on published data. Moreover, we discovered the merits of isolating CD39+CD103+CD8+ T-cells for detection of a broad recognition of HLA class I-restricted neoantigens. This CD39+CD103+CD8+ T-cell subset comprises the majority and a broader repertoire of neoantigen-specific T-cells compared to bulk TIL populations or lymphocytes derived from peripheral blood. In conclusion, we developed a neoantigen screening pipeline to unlock the immunogenic potential of colorectal cancers with low mutation burden. We have detected a relatively high number of neoantigens that are recognized by tumor- and/or PBMC-derived T-cells in mismatch repair proficient, low mutation burden colorectal cancer patients, and show the importance of the CD39+CD103+CD8+ T-cell subset for neoantigen-based immunotherapies. These findings warrant the further exploration of the potential to employ neoantigen-targeted therapies to improve clinical outcomes of colorectal cancer patients.

Citation Format: Jitske van den Bulk, Dina Ruano, Marieke E. Ijsselsteijn, Marten Visser, Ruud van der Breggen, Koen C.M.J. Peeters, Thomas Duhen, Rebekka Duhen, Andrew D Weinberg, Sjoerd S.H. van der Burg, Els M.E. Verdegaal, Noel F. de Miranda. Successful identification of neoantigen-specific T-cell responses in low mutation burden colorectal cancers for personalized cancer vaccine development [abstract]. In: Proceedings of the Fourth CRI-CIMT-EATI-AACR International Cancer Immunotherapy Conference: Translating Science into Survival; Sept 30-Oct 3, 2018; New York, NY. Philadelphia (PA): AACR; Cancer Immunol Res 2019;7(2 Suppl):Abstract nr B094.

Abstract PR11: Neo-antigen landscape dynamics during human melanoma-T cell interactions

Recognition of the neo-antigens that are formed as a consequence of DNA damage is likely to be a major driving force behind the clinical activity of T cell checkpoint blockade and adoptive T cell therapy for treatment of non-virally induced solid cancers. Consequently, strategies to selectively enhance T cell reactivity against genetically defined neo-antigens are currently under development. In mouse models, T cell pressure has been shown to sculpt the antigenicity of tumors through selection of tumor cell variants that do not express the relevant neo-antigens. However, it is unclear whether the T cell-recognized neo-antigen repertoire is constant over time in human cancers. To address this issue, we analyzed the stability of neo-antigen specific T cell responses and the antigens they recognize in stage IV melanoma patients treated by adoptive T cell transfer. Fresh tumor tissue resected before and after treatment was used to establish autologous melanoma cell lines, to culture tumor-infiltrating lymphocytes (TIL) and to generate T-cell infusion products by autologous mixed lymphocyte tumor cell cultures using peripheral blood lymphocytes. Material from 2 patients with objective clinical responses after infusion of autologous tumor-specific CD4+ and CD8+ T cells was analyzed by whole exome and RNA sequencing. Subsequently, 31-mer peptides covering all the non-synonymous somatic mutations were used to test the reactivity of both the T-cell infusion products and TIL isolated from subsequent tumor lesions by ELISA and flow cytometry. The expression of genes encoding T cell-recognized neo-antigens was then analyzed within the tumor cell lines and within the corresponding paraffin-embedded tumor tissue, by real-time PCR analysis, a competitive allele-specific PCR assay, and by analysis of heterozygosity and next generation amplicon sequencing. Analysis of the infusion products showed that 50-80% of T cells reacted to autologous tumor cells, with only a very low percentage of these cells recognizing known shared tumor-associated epitopes. Instead, tumor reactivity was predominantly mediated by CD4+ and CD8+ T cells recognizing clonally expressed neo-antigens formed by private mutations. CD8+ T cells within the infusion products and within TIL populations generated from subsequent tumor lesions of these two patients recognized a total of 6 different neo-antigens, and analysis of these neo-antigens in both the index lesion and subsequent lesions revealed profound alterations in the T cell-recognized neo-antigen landscape. In particular, in 2 cases, the mutant allele was lost from a subsequent tumor, in one case, expression of the mutant gene was substantially reduced in a recurring lesion, and in another case expression of the mutant gene was increased approx. 40-fold in a subsequent tumor. Notably, in 4 out of 4 cases these changes in neo-antigen expression were paralleled by loss or gain of the respective neo-antigen specific T cell response. Collectively, our data demonstrate that under conditions in which a high frequency of tumor-specific T cells is present, tumor cell variants with reduced or lost neo-antigen expression can emerge, similar to what has been observed in mice. This, and the observation of concurrent acquisition of novel T cell reactivity, reveal the dynamics of T cell - neo-antigen interaction in human cancer, and indicate that immunotherapies that maximize the capacity to respond to an altering neo-antigen landscape may offer the highest chance to achieve long-term tumor control.

Citation Format: Els M.E. Verdegaal, Noel de Miranda, Marten Visser, Tom Harryvan, Marit van Buuren, Rikke Andersen, Sine Hadrup, Caroline van der Minne, Remko Schotte, Hergen Spits, John Haanen, Ellen Kapiteijn, Ton Schumacher, Sjoerd H. Van Der Burg. Neo-antigen landscape dynamics during human melanoma-T cell interactions [abstract]. In: Proceedings of the Second CRI-CIMT-EATI-AACR International Cancer Immunotherapy Conference: Translating Science into Survival; 2016 Sept 25-28; New York, NY. Philadelphia (PA): AACR; Cancer Immunol Res 2016;4(11 Suppl):Abstract nr PR11.

Blockade of the granzyme B/perforin pathway through overexpression of the serine protease inhibitor PI-9/SPI-6 constitutes a mechanism for immune escape by tumors

The concept for cellular immunotherapy of solid tumors relies heavily on the capacity of class I MHC-restricted cytotoxic T lymphocytes (CTLs) to eliminate tumor cells. However, tumors often have managed to escape from the cytolytic machinery of these effector cells. Therefore, it is very important to chart the mechanisms through which this escape can occur. Target-cell killing by CTLs involves the induction of apoptosis by two major mechanisms: through death receptors and the perforin/granzyme B (GrB) pathway. Whereas tumors previously were shown to exhibit mechanisms for blocking the death receptor pathway, we now demonstrate that they also can resist CTL-mediated killing through interference with the perforin/GrB pathway. This escape mechanism involves expression of the serine protease inhibitor PI-9/SPI-6, which inactivates the apoptotic effector molecule GrB. Expression of PI-9 was observed in a variety of human and murine tumors. Moreover, we show that, indeed, expression results in the resistance of tumor cells to CTL-mediated killing both in vitro and in vivo. Our data reveal that PI-9/SPI-6 is an important parameter determining the success of T cell-based immunotherapeutic modalities against cancer.

Isolation of broadly reactive, tumor-specific, HLA Class-I restricted CTL from blood lymphocytes of a breast cancer patient

Blood lymphocytes of a HLA-A2 positive breast cancer patient were stimulated with either MCF-7 or MDA-MB-231, i.e., HLA-A2-matched allogeneic breast carcinoma cell lines. Several CD8+ CTL clones with reactivity against the stimulator cells but not against K562 were generated. Reactivity could be blocked with monoclonal antibody (mAb) W6/32, MA2.1, and/or BB7.2, indicating that the clones are HLA-class I and HLA-A2 restricted. The CTL clones generated following stimulation with MCF-7, recognized various other allogeneic HLA-A2+ tumor cell lines, including breast carcinoma, renal cell carcinoma, and melanoma cell lines, but not HLA-A2 tumor cell lines. The CTL clones did not recognize normal HLA-A2+ cells including breast epithelial cells, renal proximal tubular epithelial cells (PTEC), or EBV-transformed B cells including the autologous EBV cell line. In contrast to the CTL clones induced with MCF-7, the reactivity of the clones stimulated with MDA-MB-231, was limited to the stimulator cell MDA-MB-231. Cytotoxicity assays utilizing T2 cells loaded with peptides as target cells indicated that none of the examined CTL-epitopes derived from HER-2/neu, Muc-1, Ep-CAM-1, and p53 were recognized by the CTL clones generated. Our findings underscore that breast cancer is an immunogenic tumor and that HLA-class I-matched allogeneic tumor cells can be used as stimulator cells to generate tumor-specific CTL from peripheral blood of a breast cancer patient with specificity for an antigenic determinant that is broadly expressed on tumor cells from various origins or with specificity limited to the breast cancer stimulator cell.

Definition of unique and shared T-cell defined tumor antigens in human renal cell carcinoma

From peripheral blood mononuclear cells of a patient with renal cell carcinoma (RCC), we isolated several T-cell clones, which efficiently lyse the autologous RCC cell line (LE-8915-RCC), but not the autologous Epstein Barr virus-transformed lymphoblastoid cell line. Most of the cytotoxic T lymphocyte (CTL) clones recognize HLA-A1-positive allogeneic RCC cell lines, indicating that HLA-A1 is the restricting element for these T cells. One CTL clone exclusively recognizes the autologous tumor cells. The HLA-A1-restricted CTL clones can be divided further into two subsets of T-cell clones, one blocked by an HLA-A1-specific monoclonal antibody, the other not. The reactivity of HLA-A1-restricted T-cell clone 6/135 was studied in greater detail. This T-cell clone also recognizes a number of melanoma cell lines, indicating that expression of the antigen seen by this CTL clone is not restricted to RCC. Strikingly, the antigen is not exclusively expressed by tumor cell lines, because primary cultures of proximal tubulus epithelium cells, adult mesangial cells, and normal breast epithelium cells are also lysed. These results corroborate the notion that renal carcinoma cells are immunogenic by virtue of a broadly distributed antigenic structure that may serve as a target for cytotoxic T cells and may be a potential candidate for tumor vaccine development.

Expression of adhesion molecules on granulocytes and monocytes from patients with asthma stimulated in vitro with interleukin-8 and monocyte chemotactic protein-1

Upregulation of adhesion molecule expression on endothelial cells (EC) and circulating leukocytes, by locally produced inflammatory mediators, may result in the enhanced infiltration of leukocytes into tissue, e.g. the airways of asthma patients. The present study investigates whether the expression of adhesion molecules on granulocytes and monocytes from asthma patients is affected by chemotactic factors, i.e. interleukin-8 (IL-8) and monocyte chemotactic protein-1 (MCP-1). Flow cytometric analysis showed that the intrinsic expression of the various adhesion molecules on peripheral blood phagocytes from asthma patients was not different from that of healthy individuals. However, stimulation of monocytes with MCP-1 resulted only in upregulation of the expression of CD14 on monocytes from symptomatic asthma patients but not on monocytes from asymptomatic asthma patients and healthy individuals. Stimulation of granulocytes with IL-8 did not change the expression of the various beta 1- and beta 2-integrin molecules, such as VLA-4, LFA-1, CR3 and p150,95. Since earlier studies have shown that CD14 on monocytes mediates monocyte adhesion to activated vascular EC the present findings suggest that during the active phase of asthma upregulation of CD14 on monocytes by MCP-1 may lead to an increased adhesion of monocytes to vascular endothelium and their subsequent transendothelial migration into the tissue of the airways.

Effect of interleukin-8 and monocyte chemotactic protein-1 on adhesion of circulating granulocytes and monocytes from asthma patients to human venous endothelial cells

The adhesive interactions between phagocytes and endothelial cells (EC) can be modulated by inflammatory cytokines and chemotactic proteins which are released during an inflammatory response. The aim of the present study was to investigate first whether the adhesive properties of granulocytes and monocytes from asthma patients for vascular endothelial cells differ from those of phagocytes from healthy individuals. Furthermore, we studied whether the chemokines interleukin-8 (IL-8) and monocyte chemotactic protein-1 (MCP-1) can affect the binding of phagocytes to EC. No differences were observed in binding of phagocytes from asymptomatic or symptomatic asthma patients and from healthy individuals to non-stimulated or cytokine-stimulated EC. Incubation of granulocytes with IL-8 did not influence their adhesion to non-stimulated EC but inhibited the adhesion of granulocytes to IL-1-stimulated EC. Incubation of monocytes with MCP-1 did not affect their adhesion to non-stimulated or cytokine-stimulated EC. Our results indicate that adhesion of phagocytes to EC depends on the activation state of the endothelial cells but not on the origin of the phagocytes, since there were no differences in the adhesion of phagocytes from asthma patients and healthy individuals to non-stimulated or cytokine-stimulated EC.

Increased adhesion of human monocytes to IL-4-stimulated human venous endothelial cells via CD11/CD18, and very late antigen-4 (VLA-4)/vascular cell adhesion molecule-1 (VCAM-1)-dependent mechanisms

Expression of adhesion molecules on endothelial cells (EC) can be up-regulated or induced by cytokines. The aim of the present study was to investigate the effect of IL-4 on both the expression of adhesion molecules on EC and monocyte adhesion to EC. Flow cytometric analysis showed that VCAM-1 expression on EC was up-regulated after stimulation with IL-4 for 24 h, whereas the expression of E-selectin (formerly called endothelial leucocyte adhesion molecule-1 (ELAM-1)) was not enhanced, and that of intercellular adhesion molecule-1 (ICAM-1) only slightly. The adhesion of monocytes to EC increased to maximum values upon stimulation of EC with IL-4 for 24 h. Coating of monocytes with MoAb against the integrin beta 2-subunit (CD18) significantly inhibited their adhesion to IL-4-stimulated EC; maximal inhibition was found when monocytes were coated with anti-CD18 MoAb in combination with MoAb against CD49d (the alpha-chain of VLA-4), whereas no inhibition was found when monocytes were coated only with MoAb against CD49d. Monocyte adhesion was not significantly inhibited when IL-4-stimulated EC were coated with MoAbs against ICAM-1 or VCAM-1 alone or in combination. Adhesion of monocytes was inhibited to a greater extent when in addition to coating of monocytes with MoAb against CD18 the EC were coated with MoAb against VCAM-1. From these results we conclude that monocytes bind to IL-4-stimulated EC via interaction of CD11/CD18 molecules on the monocytes with an as yet unknown endothelial ligand, and interaction of VLA-4 on monocytes with VCAM-1 on EC.

Contribution of ICAM-1 and VCAM-1 to the morphological changes in monocytes bound to human venous endothelial cells stimulated with recombinant interleukin-4 (rIL-4) or rIL-1 alpha

The present study focused on the question of whether the expression of intracellular adhesion molecule-1 (ICAM-1) and vascular cell adhesion molecule-1 (VCAM-1) on the surface of cultured human venous endothelial cells (EC), stimulated with recombinant interleukin-4 (rIL-4) or rIL-1 alpha, contributes to the stretching of human monocytes following their binding to EC. Stimulation of monolayers of venous EC with rIL-4 for 24 hr induced marked expression of VCAM-1 but not ICAM-1 on EC, increased the adhesiveness of EC for monocytes but did not promote stretching of EC-bound monocytes over the surface of EC. Stimulation of EC with rIL-1 alpha for 24 hr induced surface expression of both ICAM-1 and VCAM-1, enhanced the binding of monocytes to EC and increased the percentage of EC-bound monocytes with a stretched morphology about 2.7-fold. Anti-ICAM-1 but not anti-VCAM-1 mAb markedly reduced the percentage stretched monocytes on rIL-1 alpha-stimulated EC. We conclude that ICAM-1 but not VCAM-1 on cytokine-stimulated EC is essential for the stretching of EC-bound monocytes.

Penetration of carboplatin and cisplatin into rat peritoneal tumor nodules after intraperitoneal chemotherapy

Platinum distribution was studied in rat peritoneal tumors after i.p. treatment with equimolar doses of carboplatin and cisplatin. Low platinum concentrations (4 ppm) were detected in the periphery of the tumor after carboplatin treatment, whereas no platinum was detected 0.5 mm in from the periphery. In contrast, after cisplatin treatment, high platinum concentrations (29 ppm) were measured in the periphery of the tumor and moderate concentrations (14 ppm) were measured in the center. Only following increased carboplatin doses were low platinum concentrations detectable in the tumor. The total platinum concentration in the tumors was determined after equimolar administration of both drugs. In all, 7 times more platinum was detected after cisplatin treatment than after carboplatin treatment, and 10 times more carboplatin than cisplatin had to be injected to obtain comparable platinum concentrations in the tumors. When single cells were incubated with equimolar concentrations of carboplatin and cisplatin, 6-7 times more platinum was found in cells treated with cisplatin. However, pharmacokinetic studies favored i.p. administration of carboplatin because the clearance of this compound from the peritoneal cavity, expressed as t1/2 beta, was lower than that of cisplatin (239 vs 78 min), resulting in an AUC in the peritoneal cavity for both total and ultrafiltered drug that was almost 3 times higher for carboplatin than cisplatin. The AUC for ultrafiltered carboplatin in plasma was 2-fold that for cisplatin (2,801 +/- 210 vs 1,334 +/- 431 microM m). The present study demonstrated that in spite of the pharmacological advantages of carboplatin, its capacity to penetrate into peritoneal tumors and tumor cells is far lower than that of cisplatin.