Tumour cell‐intrinsic CTLA4 regulates PD‐L1 expression in non‐small cell lung cancer

Cytotoxic T lymphocyte antigen 4 (CTLA4) and programmed cell death protein 1 (PD‐1) are immune checkpoint proteins expressed in T cells. Although CTLA4 expression was found in multiple tumours including non‐small cell lung cancer (NSCLC) tissues and cells, its function in tumour cells is unknown. Recently, PD‐1 was found to be expressed in melanoma cells and to promote tumorigenesis. We found that CTLA4 was expressed in a subset of NSCLC cell lines and in a subgroup of cancer cells within the lung cancer tissues. We further found that in NSCLC cells, anti‐CTLA4 antibody can induce PD‐L1 expression, which is mediated by CTLA4 and the EGFR pathway involving phosphorylation of MEK and ERK. In CTLA4 knockout cells, EGFR knockout cells or in the presence of an EGFR tyrosine kinase inhibitor, anti‐CTLA4 antibody was not able to induce PD‐L1 expression in NSCLC cells. Moreover, anti‐CTLA4 antibody promoted NSCLC cell proliferation in vitro and tumour growth in vivo in the absence of adaptive immunity. These results suggest that tumour cell‐intrinsic CTLA4 can regulate PD‐L1 expression and cell proliferation, and that anti‐CTLA4 antibody, by binding to the tumour cell‐intrinsic CTLA4, may result in the activation of the EGFR pathway in cancer cells.     

Recombinant Newcastle Disease Virus as a Vaccine Vector

A complete cDNA clone of the Newcastle disease virus (NDV) vaccine strain Hitchner B1 was constructed, and infectious recombinant virus expressing an influenza virus hemagglutinin was generated by reverse genetics. The rescued virus induces a strong humoral antibody response against influenza virus and provides complete protection against a lethal dose of influenza virus challenge in mice, demonstrating the potential of recombinant NDV as a vaccine vector.     

Control of memory CD4 T cell recall by the CD28/B7 costimulatory pathway

The CD28/B7 costimulatory pathway is generally considered dispensable for memory T cell responses, largely based on in vitro studies demonstrating memory T cell activation in the absence of CD28 engagement by B7 ligands. However, the susceptibility of memory CD4 T cells, including central (CD62L(high)) and effector memory (T(EM); CD62L(low)) subsets, to inhibition of CD28-derived costimulation has not been closely examined. In this study, we demonstrate that inhibition of CD28/B7 costimulation with the B7-binding fusion molecule CTLA4Ig has profound and specific effects on secondary responses mediated by memory CD4 T cells generated by priming with Ag or infection with influenza virus. In vitro, CTLA4Ig substantially inhibits IL-2, but not IFN-gamma production from heterogeneous memory CD4 T cells specific for influenza hemagglutinin or OVA in response to peptide challenge. Moreover, IL-2 production from polyclonal influenza-specific memory CD4 T cells in response to virus challenge was completely abrogated by CTLA4Ig with IFN-gamma production partially inhibited. When administered in vivo, CTLA4Ig significantly blocks Ag-driven memory CD4 T cell proliferation and expansion, without affecting early recall and activation. Importantly, CTLA4Ig treatment in vivo induced a striking shift in the phenotype of the responding population from predominantly T(EM) in control-treated mice to predominantly central memory T cells in CTLA4Ig-treated mice, suggesting biased effects of CTLA4Ig on T(EM) responses. Our results identify a novel role for CD28/B7 as a regulator of memory T cell responses, and have important clinical implications for using CTLA4Ig to abrogate the pathologic consequences of T(EM) cells in autoimmunity and chronic disease.     

小鼠对重组痘苗病毒表达流感病毒血凝素的免疫反应

实验比较了小鼠对表达流感病毒A/NJ/11/76(H1N1)和A/Jap/305/57(H2N2)血凝素基因的痘苗病毒重组株HSW2和VInf1的免疫反应,两株重组病毒经静脉或静脉加鼻腔免疫小鼠后都产生相应血凝抑制抗体;用不同剂量的痘苗病毒重组株HSW2皮内接种家兔也产生相应抗体,且抗体滴度与接种的病毒量成正比关系,但用痘苗病毒野毒株免疫的家兔未测到抗体,这两株痘苗病毒重组株免疫的小鼠,能保护小鼠对流感病毒母株的攻击,HSW2和VInf1的保护指数分别为3.3和3.9个对数,但这两株病毒未能诱导细胞毒性T细胞反应。     

Prokaryotic expression and characterization of avian influenza A virus <Emphasis Type="Italic">M2</Emphasis> gene as a candidate for universal recombinant vaccine against influenza A subtypes; specially H5N1 and H9N2

The conserved M2 protein of influenza A virus is considered as a promising candidate target for a broad-spectrum, recombinant influenza A vaccine. In the present study, the open reading frame (ORF) of avian influenza A/chicken/Iran/101/1998 (H9N2) M2 gene was amplified then cloned in pAED4, prokaryotic expression vector. M2 protein was produced through the expression of this recombinant expression vector (pAED4-M2) in E. coli BL21 (DE3) strain. The expressed M2 protein was analyzed on SDS-PAGE. Western blot assay was used to examine the immunoreaction of the expressed protein using commercial polyclonal anti-M2 antibody. The antigenicity and biological activity of the recombinant protein was also qualitatively detected on infected MDCK cells surface by immunofluorescence assay using rabbit’s immunized antiserum. So, according to the sequence alignment based on the mentioned isolate and the result of immunoassay reaction, it seems recombinant vaccine based on A/chicken/Iran/101/1998(H9N2) M2 protein isolate might cover majority of influenza A virus strains specially H5 and H9 circulating in Iran and neighbor regions significantly.     

Construction of a human scFv antibody library with VH regions randomized and its application

A non-immunized human single chain variable fragment (scFv) library containing 2.5 × 10(7) individual clones was constructed from antibody variable region genes of 200 non-immunized donors. ScFv gene repertories were generated by randomly combining rearranged variable regions of heavy chain (VH) and natural occurring light chain (VL) using overlapping extension PCR (OE-PCR). Five recombinant protein antigens from different species were successfully used to select specific binders. Phage ELISA showed that the recombinant phage particle could specifically bind to non-structural protein 1 of Avian influenza virus. This method can therefore efficiently generate a phage antibody library.     

Human peripheral blood mononuclear cells produce IgA anti-influenza virus antibody in a secondary in vitro antibody response

The function and immunoregulation of human IgA memory B cells producing anti-influenza virus antibody was analyzed in vitro in antigen-stimulated cultures. Peripheral blood mononuclear cells (PBMC) from seven of eight normal adult volunteers naturally immunized to influenza virus produced IgA anti-influenza virus antibody when stimulated in vitro with inactivated A/Aichi/68 [H3N2] influenza virus. This IgA antibody response was approximately one-eighth the IgG antibody response. PBMC from each of five patients with selective IgA deficiency failed to produce any measurable IgA antibody. When tonsillar mononuclear cells (TMC) were studied in a similar manner, a relatively higher IgA antibody response was obtained (one-third the IgG antibody) than with PBMC. Additional studies were undertaken to investigate the immunoregulation of this IgA antibody production and the relatively lower amount produced by PBMC than by TMC. Co-cultures of peripheral blood B cells with irradiated peripheral blood T cells (to possibly inactivate a radiosensitive IgA suppressor cell) did not result in a relative increase in IgA antibody production. Also, co-cultures of B cells with increasing numbers of T cells produced parallel increases of IgG and IgA antibody when plotted on a log scale with slopes of approximately 1, suggesting that a single helper T cell was limiting for both isotypes. Finally, pokeweed mitogen-stimulated co-cultures of peripheral blood and tonsillar B and T cells revealed that the B cell population, but not the T cell population, determined the amount of IgA anti-influenza virus antibody produced. Precursor frequency analyses of tonsillar and peripheral blood B cells in antigen-stimulated cultures confirmed that tonsils contained a higher precursor frequency of B cells for IgA anti-influenza virus antibody production (3.95/10(6) B cells) than did peripheral blood B cells (0.65/10(6) B cells). Thus, IgA memory cells are preferentially found in tonsillar tissue as compared with the peripheral blood, consistent with the role of the tonsils as a mucosal immune organ.     

利用Cre-loxP自动敲除H5亚型禽流感病毒血凝素重组鸡痘病毒中的报告基因

研究去除重组鸡痘病毒中的报告基因,构建一株只含目的基因的重组毒。将H5亚型AIV的HA基因作为靶基因,两侧含loxP序列的GFP表达盒插入鸡痘病毒重组臂基因构建了转移质粒载体,将其与脂质体混合转染CEF细胞,获得了表达H5和GFP的鸡痘病毒重组体。通过二次转染,利用Cre酶自动敲除重组病毒中的GFP基因,最终获得了只含H5血凝素基因表达盒的重组鸡痘病毒。免疫荧光和病毒滴度测定结果表明,经过连续传代后重组病毒仍然稳定复制并表达H5血凝素。用10⁵PFU和2×10⁵PFU rFPV H5免疫SPF鸡,28d后,免疫组鸡抗体平均滴度(HI)分别达到4log 2和4.5log 2,结果表明,H5HA基因重组病毒能刺激鸡群产生较高特异抗体。     

家蚕细胞和虫体产生抗人小细胞肺癌抗体

用重组昆虫病毒表达系统,在家蚕细胞和虫体表达了抗人小细胞肺癌人-鼠嵌合抗体。重组病毒rNPVL2,rNPVH17及双重组病毒rNPVLH19感染的家蚕细胞和虫体血淋巴中都检测到抗体分子的表达。双重组病毒的双基因共表达部分产物可装配。ELISA分析表明抗体重轻链基因共表达产物具有比单基因表达产物高得多的与小细胞肺癌细胞免疫结合功能。     

Characterization of a neuraminidase-deficient influenza a virus as a potential gene delivery vector and a live vaccine

We recently identified a packaging signal in the neuraminidase (NA) viral RNA (vRNA) segment of an influenza A virus, allowing us to produce a mutant virus [GFP(NA)-Flu] that lacks most of the NA open reading frame but contains instead the gene encoding green fluorescent protein (GFP). To exploit the expanding knowledge of vRNA packaging signals to establish influenza virus vectors for the expression of foreign genes, we studied the replicative properties of this virus in cell culture and mice. Compared to wild-type virus, GFP(NA)-Flu was highly attenuated in normal cultured cells but was able to grow to a titer of >10(6) PFU/ml in a mutant cell line expressing reduced levels of sialic acid on the cell surface. GFP expression from this virus was stable even after five passages in the latter cells. In intranasally infected mice, GFP was detected in the epithelial cells of nasal mucosa, bronchioles, and alveoli for up to 4 days postinfection. We attribute the attenuated growth of GFP(NA)-Flu to virion aggregation at the surface of bronchiolar epithelia. In studies to test the potential of this mutant as a live attenuated influenza vaccine, all mice vaccinated with >/==" BORDER="0">10(5) PFU of GFP(NA)-Flu survived when challenged with lethal doses of the parent virus. These results suggest that influenza virus could be a useful vector for expressing foreign genes and that a sialidase-deficient virus may offer an alternative to the live influenza vaccines recently approved for human use.     

Sequence of DNA complementary to a small RNA segment of influenza virus A/NT/60/68.

A small RNA segment from the influenza virus strain A/NT/60/68 (H3N2) was converted to cDNA and then to double-stranded DNA using synthetic oligodeoxynucleotide primers. The double-stranded form was cloned into the bacteriophage M1 3mp7. Clones yielding single-strand recombinant templates in opposite orientation were sequenced by the Sanger dideoxynucleotide chain termination technique. The small viral RNA was 422 nucleotides long and the evidence indicated that it was formed by internal deletion of segment 3. It also contained sequences homologous to segment 1.     

Cells expressing an H chain Ig gene carrying a viral T cell epitope are lysed by specific cytolytic T cells.

The epitope corresponding to amino acid residues 147-161 of the nucleoprotein (NP) of influenza A virus is recognized by CTL in association with H-2Kd class I Ag. Herein, we engineered an Ig molecule carrying this CTL epitope by replacing the diversity gene segment of the H chain V region of an anti-arsonate antibody with an oligonucleotide that encodes the CTL epitope. The chimeric H chain gene was expressed either alone or together with the parental L chain in the nonsecreting BALB/c myeloma B cell line, SP2/0. The Ig produced by cells transfected with both the chimeric H chain and parental L chains genes expressed the NP epitope but lost the original arsonate binding activity. In addition, SP2/0 cells expressing the chimeric H chain either alone or together with the parental L chain were lysed by class I restricted NP-epitope specific CTL. By contrast, SP2/0 cells pulsed with soluble chimeric Ig molecules were not lysed by the specific CTL. These observations indicate that: 1) this particular CTL epitope can be expressed on Ig molecules without altering the H and L chain pairing; 2) this CTL epitope can be generated from this chimeric Ig in which it is surrounded by flanking regions distinct from those of the viral NP; and 3) the generation of this CTL epitope from the Ig molecule requires the endogenous pathway as do viral proteins.     

嵌合抗体轻链基因在家蚕细胞中的重组与表达

用家蚕修饰型核多角体病毒为载体,在家蚕细胞获得人鼠嵌合的抗人小细胞肺癌抗体轻链基因的表达。ＰＣＲ和Ｓｏｕｔｈｅｒｎ杂交证明了抗体轻链基因已组建家蚕病毒基因组中。Ｗｅｓｔｅｒｎ ｂｌｏｔ和ＥＬＩＳＡ和分析都检测到在重组病毒感染的家蚕细胞中产生了人鼠嵌合的抗体轻链。     

Expression of the Hantaan virus M genome segment by using a vaccinia virus recombinant.

A cDNA containing the complete open reading frame of the Hantaan virus (HTN) M genome segment has been cloned into vaccinia virus. This recombinant virus expresses two glycoproteins which are similar to the HTN structural glycoproteins, G1 and G2, in molecular weight, cleavage pattern, and cellular distribution. Both HTN and recombinant vaccinia virus glycoproteins are exclusively associated with the Golgi apparatus of the cell. Despite this intracellular restriction, mice inoculated with the recombinant vaccinia virus raised neutralizing antibodies against HTN. The specificity of virus neutralization appears to reside in the HTN glycoproteins, since a vaccinia virus recombinant expressing the HTN nucleocapsid protein was unable to elicit a neutralizing antibody response.     

Differential requirement for CD80 and CD80/CD86-dependent costimulation in the lung immune response to an influenza virus infection

The CD28 costimulatory pathway is critical to T cell activation. Blockade of the interaction of CD28 with its ligands CD80 and CD86 using CTLA4-Ig has been proposed as a therapy for a number of immune-based disorders. We have used a murine model of influenza virus infection to study the role of CD28-dependent costimulation in the development of antiviral immune responses. In vivo treatment with CTLA4-Ig to block the interaction of CD28 with CD80 and CD86 reduced virus-specific cytotoxicity and IFN-gamma production by bronchoalveolar lavage fluid CD8+ T lymphocytes in vitro. It also resulted in decreased numbers of virus-specific CD8+ T lymphocytes in the bronchoalveolar lavage fluid, lung, and spleen and lowered virus-specific Ab titers. Mice treated with CTLA4-Ig were able to control and clear the virus infection, but this was delayed compared with controls. Treatment with Y100F-Ig, a mutant form of CTLA4-Ig which selectively binds to CD80 and blocks the CD28-CD80 interaction leaving CD28-CD86 binding intact, did not affect Ab production, spleen cytotoxic precursors, or clearance of virus. However, Y100F-Ig treatment had a clear effect on lung effector cell function. Secretion of IFN-gamma by bronchoalveolar lavage fluid CD8+ T lymphocytes in vitro was decreased, and the number of virus-specific CD8+ T lymphocytes in the bronchoalveolar lavage fluid and lungs of infected mice was reduced. These results indicate that CD28-dependent costimulation is important in the antiviral immune response to an influenza virus infection. The individual CD28 ligand, CD80, is important for some lung immune responses and cannot always be compensated for by CD86.     

Pre-clinical evaluation of a replication-competent recombinant adenovirus serotype 4 vaccine expressing influenza H5 hemagglutinin

Background

Influenza virus remains a significant health and social concern in part because of newly emerging strains, such as avian H5N1 virus. We have developed a prototype H5N1 vaccine using a recombinant, replication-competent Adenovirus serotype 4 (Ad4) vector, derived from the U.S. military Ad4 vaccine strain, to express the hemagglutinin (HA) gene from A/Vietnam/1194/2004 influenza virus (Ad4-H5-Vtn). Our hypothesis is that a mucosally-delivered replicating Ad4-H5-Vtn recombinant vector will be safe and induce protective immunity against H5N1 influenza virus infection and disease pathogenesis.

Methodology/Principal Findings

The Ad4-H5-Vtn vaccine was designed with a partial deletion of the E3 region of Ad4 to accommodate the influenza HA gene. Replication and growth kinetics of the vaccine virus in multiple human cell lines indicated that the vaccine virus is attenuated relative to the wild type virus. Expression of the HA transgene in infected cells was documented by flow cytometry, western blot analysis and induction of HA-specific antibody and cellular immune responses in mice. Of particular note, mice immunized intranasally with the Ad4-H5-Vtn vaccine were protected against lethal H5N1 reassortant viral challenge even in the presence of pre-existing immunity to the Ad4 wild type virus.

Conclusions/Significance

Several non-clinical attributes of this vaccine including safety, induction of HA-specific humoral and cellular immunity, and efficacy were demonstrated using an animal model to support Phase 1 clinical trial evaluation of this new vaccine.     

High-level expression of a functional humanized anti-CTLA4 single-chain variable fragment antibody in <Emphasis Type="Italic">Pichia pastoris</Emphasis>

The administration of antibodies against the cytotoxic T lymphocyte-associated antigen-4 (CTLA-4) is a promising approach in the upregulation of immune responses in many cancers and infectious diseases. The single-chain variable fragment of antibody against CTLA4 is also useful in developing immunotoxins that might be used in the treatment of cancer, transplant rejection, and autoimmune diseases. Here, we report the production of a soluble and functional scFv antibody against CTLA4 by using Pichia pastoris as the expression system. The gene encoding scFv hS83 with an additional 6His-tag at the 5’-end was inserted into the expression vector pPIC9K. Then, the transformants were double-screened on plates containing 0.25 mg/mL and 1.5 mg/mL of neomycin G418 and many clones with different levels of G418-resistance were selected for further studies on expression. After induction by the addition of methanol, various levels of hS83 were detected in the supernatant of P. pastoris containing pPIC9K-hS83. Clones with low G418-resistance produced more hS83 than those with higher G418-resistance. Under the optimized conditions (initial inoculum, 40 A_600nm AU/mL; pH 6.0; methanol concentration, 3.0%; induction time, 72 h), approximately 16–20 mg protein could be recovered from 1 L of the culture. The purified hS83 had a stronger binding ability towards CTLA4-positive Raji cells than CTLA4-negative ECV304 cells. This finding indicates that the antibody produced by P. pastoris is functional and may be used in immunotherapy for cancer, infection, transplant rejection, and autoimmune diseases. Huawei Cai and Lihong Chen contributed equally to this work.     

Production of functional antibodies generated in a nonlytic insect cell expression system

A monoclonal antibody directed against the type 2 adenovirus (Ad2) penton base protein was cloned and expressed in Spodoptera frugiperda (Sf9) cells using a nonlytic vector system. The coding sequences for the immunoglobulin light and heavy chains were placed under the control of the Orgyia pseudotsugata multicapsid nucleopolyhedrosis virus immediate-early 2 (OpIE2) promoter. Transfected Sf9 cells continuously secreted the antibody which retained the ability to recognize both native and recombinant Ad2 penton base proteins. Bifunctional penton base antibodies were also generated by fusing a gene for a growth factor or a cytokine at the 3' end of the Ig constant heavy chain domain. The quantity and activity of recombinant antibodies generated in the nonlytic insect cell system could be determined relatively quickly compared to other expression systems. Moreover, these recombinant proteins were not subjected to proteolytic degradation as frequently occurs during baculovirus-mediated cell lysis and the levels of recombinant antibodies produced in the nonlytic system were comparable to those reported for cytolytic baculovirus vectors.     

M2e-Displaying Virus-Like Particles with Associated RNA Promote T Helper 1 Type Adaptive Immunity against Influenza A

The ectodomain of influenza A matrix protein 2 (M2e) is a candidate for a universal influenza A vaccine. We used recombinant Hepatitis B core antigen to produce virus-like particles presenting M2e (M2e-VLPs). We produced the VLPs with and without entrapped nucleic acids and compared their immunogenicity and protective efficacy. Immunization of BALB/c mice with M2e-VLPs containing nucleic acids induced a stronger, Th1-biased antibody response compared to particles lacking nucleic acids. The former also induced a stronger M2e-specific CD4⁺ T cell response, as determined by ELISPOT. Mice vaccinated with alum-adjuvanted M2e-VLPs containing the nucleic acid-binding domain were better protected against influenza A virus challenge than mice vaccinated with similar particles lacking this domain, as deduced from the loss in body weight following challenge with X47 (H3N2) or PR/8 virus. Challenge of mice that had been immunized with M2e-VLPs with or without nucleic acids displayed significantly lower mortality, morbidity and lung virus titers than control-immunized groups. We conclude that nucleic acids present in M2e-VLPs correlate with improved immune protection.