Combined immune checkpoint inhibitors of CTLA4 and PD-1 for hepatic melanoma of unknown primary origin: A case report

BACKGROUND Melanoma is uncommonly found in lymph nodes,subcutaneous tissue,or visceral organs without a primary lesion,where it is identified as metastatic melanoma with unknown primary(MUP).Hepatic MUP is extremely rare and has a poor prognosis.There is limited information on its pathogenesis,clinical and imaging features,and pathological findings.There are no guidelines for the use of immune checkpoint inhibitors(ICIs)in hepatic MUP,and the treatment outcome has rarely been reported.CASE SUMMARY A 42-year-old woman presented to our hospital with hepatic tumors found incidentally during a routine check-up.Contrast-enhanced abdominal computerized tomography showed multiple mass lesions in the liver.Pathological results revealed melanoma,which was confirmed by immunohistochemical staining for HMB-45(+),Melan-A(+),S-100(+),and SOX10(+).There was no evidence of primary cutaneous,ocular,gastrointestinal,or anal lesion on a comprehensive examination.The patient was diagnosed with hepatic MUP.She received combined antibodies against cytotoxic T-lymphocyte-associated antigen 4(CTLA-4,ipilimumab)and programmed death protein-1(PD-1,nivolumab).She died of hepatic failure 9 mo after hepatic MUP was diagnosed.This the first case of hepatic MUP treated with combined ipilimumab and nivolumab,who showed better outcome than previous cases.CONCLUSIONCombined ICIs of PD-1 and CTLA-4 may be considered as the first-line therapyfor patients with hepatic MUP.

Faecal microbiota transplantation enhances efficacy of immune checkpoint inhibitors therapy against cancer

Even though immune checkpoint inhibitors(ICIs)are effective on multiple cancer types,there are still many non-responding patients.A possible factor put forward that may influence the efficacy of ICIs is the gut microbiota.Additionally,faecal microbiota transplantation may enhance efficacy of ICIs.Nevertheless,the data available in this field are insufficient,and relevant scientific work has just commenced.As a result,the current work reviewed the latest research on the association of gut microbiota with ICI treatments based on anti-programmed cell death protein 1 antibody and anti-cytotoxic T-lymphocyte-associated protein 4 antibody and explored the therapeutic potential of faecal microbiota transplantation in combination with ICI therapy in the future.

Immune blockade inhibitors and the radiation abscopal effect in gastrointestinal cancers

The field of tumor immunology has produced in the recent years a revolution in cancer therapeutics putting an end in the long lasting frustration of investigators in the area stemming from largely unsuccessful strides to develop cancer vaccines. This progress has come from the introduction of immune checkpoint inhibitors, monoclonal antibodies blocking ligand/receptor pairs with inhibitory effects for immune cells. Through this blockade immune checkpoint blockers are able to ac-tivate the immune system and create an anti-tumoral effect. A significant sub-set of patients with various types of cancers such as melanoma, lung carcinomas and urothelial cancers benefit from treatment with these drugs and survivals have improved in some ca-ses. However other cancers are primarily resistant to immune blockers and secondary resistance is also the norm. Radiation therapy is often used in the palliative treatment of patients with advanced cancers and, in addition to the local effect in the irradiated field, it may in rare cases produce a systemic antitumor effect, termed "abscopal". This effect has been suggested to be produced by immune mechanisms. Thus an opportunity presents for a synergistic effect of immune stimulation between radiation and immune blockade inhibitors. The therapeutic opportunities presented with the combination of radiation and these drugs for gastrointestinal cancers will be discussed in this editorial overview.

Blood and Histopathological Biomarkers of Immune-related Adverse Effects of Treatment with Immune Checkpoint Inhibitors

Immune checkpoint inhibitors have been a recent major breakthrough in the management of tumors.They have broadened the scope of management in medical oncology,which has been heavily dependent on chemotherapy.Immune checkpoint inhibitors have renewed the hope of many patients for a more effective treatment.However,Immune checkpoint inhibitors are also associated with a variety of adverse effects,most commonly immunerelated adverse events,and these are often different from the known chemotherapy-induced toxicities.Hence,there is a need to identify specific biomarkers which are able to predict or diagnose these immune-related adverse events.

Advances in immunotherapy for treatment of lung cancer

Different approaches for treating lung cancer have been developed over time, including chemotherapy, radiotherapy and targeted therapies against activating mutations. Lately, better understanding of the role of the immunological system in tumor control has opened multiple doors to implement different strategies to enhance immune response against cancer cells. It is known that tumor cells elude immune response by several mechanisms. The development of monoclonal antibodies against the checkpoint inhibitor programmed cell death protein 1 （PD-1） and its ligand （PD-L1）, on T cells, has led to high activity in cancer patients with long lasting responses. Nivolumab, an anti PD-1 inhibitor, has been recently approved for the treatment of squamous cell lung cancer patients, given the survival advantage demonstrated in a phase III trial. Pembrolizumab~ another anti PD-1 antibod）5 has received FDA breakthrough therapy designation for treatment of non-small cell lung cancer （NSCLC）, supported by data from a phase I trial. Clinical trials with anti PD-1/PD-L1 antibodies in NSCLC have demonstrated very good tolerability and activity, with response rates around 20% and a median duration of response of 18 months.

Progress in immunotherapy for small cell lung cancer

Small-cell lung cancer(SCLC)is a special type of lung cancer that belongs to highly aggressive neuroendocrine tumors.At present,radiotherapy and chemotherapy remain the mainstay of treatment for SCLC.Progress in targeted therapies for SCLC with driver mutations has been slow,and these therapies are still under investigation in preclinical or early-phase clinical trials,and research on antiangiogenic tyrosine kinase inhibitors(e.g.,anlotinib)has achieved some success.Immunotherapy is becoming an important treatment strategy for SCLC after radiotherapy and chemotherapy.In this article we review the recent advances in immunotherapy for SCLC.

Immunotherapies for well-differentiated grade 3 gastroenteropancreatic neuroendocrine tumors:A new category in the World Health Organization classification

According to the 2019 World Health Organization(WHO)classification,welldifferentiated grade 3(G3)gastroenteropancreatic(GEP)neuroendocrine tumors(NETs)are a new category of cancer of the digestive system.G3 GEP-NET research and treatment are not as robust as those of lower grade(G1/2)NETs and poorly differentiated neuroendocrine carcinomas(NECs).Previously,the management of high-grade NETs was mainly based on NEC therapies,as highgrade NETs were classified as NECs under the previous WHO classification.Despite this,G3 GEP-NETs are significantly less responsive to platinum-based chemotherapy regimens than NECs,due to their distinct molecular pathogenesis and course of pathological grade transition.Patients with advanced G3 GEPNETs,who have progressed or are intolerant to chemotherapy regimens such as capecitabine plus temozolomide,have limited treatment choices.Immunotherapy has helped patients with a variety of cancers attain long-term survival through the use of immune checkpoint inhibitors.Immunotherapies,either alone or in combination with other therapies,do not have a clear function in the treatment of G3 GEP-NETs.Currently,the majority of immunotherapy studies,both prospective and retrospective,do not reliably differentiate G3 GEP-NETs from NECs.By contrast,a significant number of studies include non-GEP neuroendocrine neoplasms(NENs).Therefore,there is an urgent need to summarize and evaluate these data to provide more effective therapeutic approaches for patients with this rare tumor.The purpose of this mini-review was to screen and summarize information on G3 GEP-NETs from all studies on NENs immunotherapy.

Costimulatory blockade:A novel approach to the treatment of glomerular disease?

Costimulatory pathways(Cluster of differentiation 28,tumor necrosis factor-related,adhesion and T Cell Ig-and mucin-domain molecules) regulating the interactions between receptors on the T cells andtheir ligands expressed on several cell types,have a key role in controlling many immunological and non immunological processes.Indeed,accumulating evidence indicate that these molecules are involved in the pathogenesis of numerous conditions,such as allograft rejection,atherosclerosis,rheumatoid arthritis,psoriasis and renal diseases,including glomerulonephritis.Primary or secondary(i.e.,associated with infections,drugs or systemic diseases,such as systemic lupus erythematosus,diabetes,etc.) glomerulonephritis represent a group of heterogeneous diseases with different pathogenic mechanisms.Since costimulatory molecules,in particular CD80 and CD40,have been found to be expressed on podocytes in the course of different experimental and clinical glomerulonephritis,costimulation has been thought as a new therapeutic target for patients with glomerular diseases.However,although experimental data suggested that the blockade of costimulatory pathways is effective and safe in the prevention and treatment of glomerular diseases,clinical trials reported contrasting results.So,at this moment,there is not a strong evidence for the general use of costimulatory blockade as an alternative treatment strategy in patients with primary or secondary glomerulonephritis.Here,we critically discuss the current data and the main issues regarding the development of this innovative therapeutic approach.

Tumor immune checkpoints and their associated inhibitors

Immunological evasion is one of the defining characteristics of cancers,as the immune modification of an immune checkpoint(IC)confers immune evasion capabilities to tumor cells.Multiple ICs,such as programmed cell death protein-1(PD-1)and cytotoxic T-lymphocyte-associated antigen-4(CTLA-4),can bind to their respective receptors and reduce tumor immunity in a variety of ways,including blocking immune cell activation signals.IC blockade(ICB)therapies targeting these checkpoint molecules have demonstrated significant clinical benefits.This is because antibody-based IC inhibitors and a variety of specific small molecule inhibitors can inhibit key oncogenic signaling pathways and induce durable tumor remission in patients with a variety of cancers.Deciphering the roles and regulatory mechanisms of these IC molecules will provide crucial theoretical guidance for clinical treatment.In this review,we summarize the current knowledge on the functional and regulatory mechanisms of these IC molecules at multiple levels,including epigenetic regulation,transcriptional regulation,and post-translational modifications.In addition,we provide a summary of the medications targeting various nodes in the regulatory pathway,and highlight the potential of newly identified IC molecules,focusing on their potential implications for cancer diagnostics and immunotherapy.

Cancer immunotherapy: a brief review of the history, possibilities, and challenges ahead

The knowledge that the body possesses natural defenses to combat cancer existed long before the modern period,with multiple anecdotal reports of tumors miraculously disappearing,sometimes spontaneously or after a febrile or infectious episode.Spontaneous tumor regression of untreated malignant tumors is currently a well-accepted albeit rare phenomenon,and it is recognized that immunosuppression is associated with a higher cancer risk.The treatment of bladder carcinoma by intravesical administration of live attenuated Bacillus Calmette-Guérin bacteria was shown to be very effective in 1976 and is now standard treatment.Effective immunity against cancer involves complex interactions between the tumor,the host,and the environment.Cancer immunotherapy uses various strategies to augment tumor immunity and represents a paradigm shift in treating cancer,since attention has become more focused on the“biologic passport”of the individual tumor rather than the site of origin of the tumor.The different types of cancer immunotherapies discussed here include biologic modifiers,such as cytokines and vaccines,adoptive cell therapies,oncolytic viruses,and antibodies against immune checkpoint inhibitors,such as the co-inhibitory T-cell receptor PD-1 and one of its ligands,programmed death-ligand 1.