PD-1-specific "Blocking" antibodies that deplete PD-1+ T cells present an inconvenient variable in preclinical immunotherapy experiments.

Therapeutic antibodies blocking PD-1-/PD-L1 interaction have achieved remarkable clinical success in cancer. In addition to blocking a target molecule, some isotypes of antibodies can activate complement, NK cells or phagocytes, resulting in death of the cell expressing the antibody's target. Human anti-PD-1 therapeutics use antibody isotypes designed to minimize such antibody-dependent lysis. In contrast, anti-PD-1 reagents used in mice are derived from multiple species, with different isotypes, and are not engineered to reduce target cell death: few studies analyze or discuss how antibody species and isotype may impact data interpretation. We demonstrate here that anti-PD-1 therapy to promote activation and proliferation of murine PD-1-expressing CD8 T cells sometimes led instead to a loss of antigen specific cells. This phenomenon was seen in two tumor models and a model of virus infection, and varied with the clone of anti-PD-1 antibody. Additionally, we compared competition among anti-PD-1 clones to find a combination that allows detection of PD-1-expressing cells despite the presence of blocking anti-PD1 antibodies in vivo. These data bring attention to the possibility of unintended target cell depletion with some commonly used anti-mouse PD-1 clones, and should provide a valuable resource for the design and interpretation of anti-PD-1 studies in mice.

Modulation of tumor formation and intestinal cell migration by estrogens in the Apc(Min/+) mouse model of colorectal cancer.

Epidemiological studies suggest that post-menopausal hormone replacement therapy (HRT) reduces colorectal cancer (CRC) incidence. Phytoestrogens, including the soy isoflavone genistein and coumestrol, are used by many women as alternatives to HRT. Previous studies showed that ovariectomy induced a 77% increase in intestinal adenoma number in the C57BL/6J-Min/+ (Min/+) mouse, an animal model of adenomatous polyposis coli (APC)-associated CRC. Replacement of estradiol (E(2)) in ovariectomized Min/+ mice reduced tumor number to baseline and up-regulated the expression of estrogen receptor beta (ERbeta). We hypothesized that the phytoestrogens genistein and coumestrol would inhibit intestinal tumorigenesis in ovariectomized Min/+ mice. Min/+ and Apc(+/+) (WT) mice were ovariectomized and assigned to either a control diet or treatment with E(2), genistein or coumestrol. Treatment of ovariectomized Min/+ (Min/+ OX) mice with genistein resulted in a non-significant reduction in tumor number. Min/+ OX mice treated with coumestrol had significantly fewer tumors than untreated Min/+ OX controls and the same number of tumors as non-ovariectomized Min/+ mice. Bromodeoxyuridine migration assays also demonstrated that treatment with E(2) or coumestrol improved enterocyte migration rate. Immunoprecipitation and immunohistochemistry analyses showed that impaired association of the adherens junction proteins E-cadherin and beta-catenin in Min/+ mice was improved by treatment with either E(2) or coumestrol. Immunoblot analyses also showed that expression of ERbeta was elevated in enterocytes of Min/+ OX mice treated with E(2) or coumestrol as compared with those of untreated Min/+ OX mice. In conclusion, both coumestrol and E(2) prevent intestinal tumorigenesis and ameliorate enterocyte migration and intercellular adhesion in the Apc(Min/+) mouse model of CRC.