Prostate cancer is ranked second among the most common male cancers. Androgen deprivation therapy (ADT) has long been the first-line treatment and the basis for all other therapies, reducing circulating androgens to castration levels and preventing disease development. Nevertheless, ADT monotherapy may not always limit disease development, and even at low testosterone levels, hormone-sensitive prostate cancer will become castration-resistant. Recent research demonstrates that prostate cancer can have a range of potentially actionable genetic abnormalities; no medications that target these variations have yet been shown to elicit therapeutic advantages. Despite their established efficacy in the management of other cancers, advanced genetic or immunological approaches are not regularly used to treat prostate cancer patients. As a result, there is an unmet demand for medicines that offer a better chance of survival than the existing castration- resistance prostate cancer (CRPC) therapy regimens. The use of oligodeoxynucleotides (ODN) and peptides in decoy technology have been developed as novel therapeutic approaches. Decoy ODNs bind to a particular transcription factor with high affinity and may suppress gene transcription. Peptide decoys bind to specific ligands with high specificity and inhibit signaling pathways. Recent evidence supports the notion that these techniques are promising and attractive in the fight against cancer. In the present review, we discuss the use of decoy technology as a novel therapeutic approach against prostate cancer.

BACKGROUND: Tuberculosis (TB) remains a leading cause of death worldwide, with 98% of cases occurring in low- and middle-income countries (LMICs). The only vaccine licenced for the prevention of TB has limited protection for adolescents, adults and vulnerable populations. A safe and effective vaccine for all populations at risk is imperative to achieve global elimination of TB. We aimed to systematically review the efficacy and safety of TB vaccine candidates in late-phase clinical trials conducted in LMICs.
METHODS: Medline, Embase, CENTRAL, PubMed, Clinicaltrials.gov and Greylit.org were searched in June 2021 to identify phase 2 or later clinical randomised controlled trials that report the efficacy or safety (adverse events) of TB vaccine candidates with participants of any age living in an LMIC. TB vaccine candidates listed in the 2020 WHO Global TB Report were eligible for inclusion aside from BCG revaccination. Trials were excluded if all participants had active TB at baseline. Two reviewers independently assessed papers for eligibility, and for bias and quality using the Risk of Bias 2 tool and GRADE guidelines, respectively. We report efficacy rates and frequencies of adverse events from each included trial where available and qualitatively synthesise the findings.
RESULTS: Thirteen papers representing eleven trials met our inclusion criteria. Seven vaccine candidates were reviewed across seven countries: M72/AS01, RUTI, VPM1002, H56:IC31, MTBVAC, DAR-901 and ID93 + GLA-SE. Two trials reported on efficacy: an efficacy rate of 54% (95% CI 11.5, 76.2) was reported for M72/AS01 in adults with latent TB and 3% (95% CI -13.9, 17.7) for DAR-901 in healthy adolescents. However, the latter trial was underpowered. All vaccine candidates had comparable occurrences of adverse events between treatment arms and demonstrated acceptable safety profiles; though, RUTI resulted in one serious complication in a person living with HIV. M72/AS01 was the only vaccine considered safe across a diverse group of people including people living with HIV or latent TB and healthy infants and adolescents.
CONCLUSIONS: Further efficacy trials for M72/AS01 are warranted to include additional populations at risk where safety has been demonstrated. Further safety trials are needed for the remaining vaccine candidates to confirm safety in vulnerable populations.

The landscape of inflammatory bowel disease (IBD) treatment is rapidly expanding with the development of new therapeutic options.
To review the mechanisms of action and the available clinical trial data on emerging drug therapies for IBD.
Pubmed, Medline and Cochrane databases were queried up to July 2021 using keywords \"inflammatory bowel disease,\" \"IBD,\" \"Crohn\'s disease,\" \"ulcerative colitis\" and \"trial,\" \"phase\" and \"study.\" In addition, we manually reviewed the grey literature including clinical trial registries and abstracts from major gastroenterology conferences in 2020 and 2021 to include pertinent information.
In ulcerative colitis (UC), phase 2b and/or phase 3 studies met primary endpoints for S1P receptor agonists (estrasimod, ozanimod), anti-IL-23 agent (mirikizumab), anti-lymphocyte trafficking agents (ontamalimab, subcutaneous vedolizumab), JAK inhibitors (upadacitinib, filgotinib) and TLR9 agonist (cobitolimod). In Crohn\'s disease (CD), anti-IL-23 agents (risankizumab, mirikizumab, guselkumab), JAK inhibitors (upadacitinib, filgotinib) and anti-lymphocyte trafficking agents (ontamalimab, etrolizumab) met primary endpoints in randomised controlled clinical trials.
Several new IBD drug therapies have positive efficacy and safety data in early clinical trials, and there are several drugs in the therapeutic pipeline. As more treatments for CD and UC are approved for clinical use, research to assess predictors of response to therapy and head-to-head trials is needed to inform providers on how to best position therapeutic options for patients with IBD.

Nucleolin or C23, is one of the most abundant non-ribosomal phosphoproteins of nucleolus. However, in several cancers, nucleolin is highly expressed both intracellularly and on the cell surface. So, it is considered as a potential target for the diagnosis and cancer therapy. Targeting nucleolin by compounds such as AS1411 aptamer can reduce tumor cell growth. In this regard, interest has increased in nucleolin as a molecular target for overcoming cancer therapy challenges. This review paper addressed recent progresses in nucleolin targeting by the G-rich AS1411 aptamer in the field of cancer therapy mainly over the past three years.

Hepatitis B (HBV) virus infects the liver, and upon chronic infection, can cause liver cirrhosis and hepatocellular carcinoma. Despite universal vaccination programs against the virus, HBV still affects over 2 billion people worldwide, with over 240 million developing a chronic infection. While current alum-adjuvanted vaccines have shown efficacy in promoting seroprotection in healthy adults, 5-10% of immune-competent populations fail to achieve long-lasting seroprotection from these formulations. Furthermore, a large proportion of immunocompromised patients fail to achieve seroprotective antibody titers after receiving these vaccines. A novel vaccine candidate, HEPLISAV™, uses immunostimulatory sequences (ISS), in its formulation that helps induce a robust humoral and cell mediated immunity against HBV. In Phase III clinical trials, HEPLISAV™ has been shown to elicit seroprotective antibody titers with fewer immunizations. Similar safety profiles are demonstrated when compared with current HBV vaccines. For these reasons, HEPLISAV™ is an attractive vaccine to combat this global disease.

Immunization represents the most effective approach to the prevention of hepatitis B virus infection and the long-term complications of chronic disease, including liver cancer and liver failure. Current vaccines require three doses to achieve maximal immunogenicity and fail to produce long-lasting protection in 5-10% of immune-competent individuals and in a much larger proportion of immune-compromised patients. Immunostimulatory DNA sequence (ISS) vaccine adjuvants, when combined with vaccine antigens, may increase immunogenicity and reduce the number of required doses to achieve this goal. 1018 ISS plus recombinant hepatitis B surface antigen has been demonstrated to achieve these goals in immune competent and vaccine-hyporesponsive populations without compromising recipient safety.

Defibrotide is a polydisperse oligonucleotide with antiatherosclerotic, anti-inflammatory, anti-ischaemic, pro-fibrinolytic and antithrombotic actions without significant systemic anticoagulant effects. It has been used in the treatment of various cardiovascular disorders, and especially in endothelial complications of allogeneic stem-cell transplantation. We reviewed the published work for the mechanism of action and clinical use of defibrotide to consolidate data and to describe new applications of this drug. We reviewed the most relevant papers on defibrotide published from November 1982 to January 2008. (selected through PubMed), and used recent meeting abstracts as sources for this review. Reports have suggested that defibrotide has clinical efficacy for treatment and prophylaxis of hepatic sinusoidal obstruction syndrome occurring after stem-cell transplantation. Animal models have clearly shown the potential antineoplastic effect of this drug. Further clinical investigations are needed to clarify this new application.

This article reviews the biology of Toll-like receptors, the current understanding of the mechanism by which CpG oligodeoxynucleotides (ODNs) perturb immune function and the published literature describing their evaluation in the development of vaccines in humans. The role of these molecules as immune modulators in HCV treatment is also considered. There has been considerable research evaluating the role of CpG ODNs as an adjuvant and immune modulator in hepatitis B, hepatitis C and influenza. The safety and immunogenicity of the 1018 ISS compound in combination with Engerix-B was assessed in 99 healthy, adult seronegative volunteers. One month following the first immunization dose, 78.7% in the rHBsAg plus 1018 ISS group versus 11.8% in the Engerix-B group achieved protective titres. One hundred percent of rHBsAg plus 1018 ISS and 18.0% of hepatitis B vaccine-alone recipients were seroprotected 1 week following the second dose of study vaccine. After all doses of vaccine had been administered, seroprotection rates were 100% and 64%, respectively (p < 0.001). CPG 7909 was co-administered with Engerix-B in 56 healthy adults. After the second injection (week 6 time point), seroprotection was achieved in 100% of CPG 7909 recipients (0.5 mg 13/13; 1.0 mg 12/12; 0.125 mg 12/12) compared with 55% (6/11) of control participants (p = 0.0003). Twelve months post prime, all subjects who had received the full course of vaccination maintained seroprotective anti-HBs titres. The safety and immunogenicity of Engerix B plus CPG 7909 was assessed in HIV seropositive patients. All CPG 7909 recipients (n = 19) and 17/19 (89%) control subjects achieved seroprotection by 2 weeks after the third and final injection (10 weeks). Seroprotective titres remained in all CPG 7909 recipients at 48 weeks (100%) versus 12/19 (63%) for controls (p = 0.008). This cohort of HIV-infected patients was followed at 6-month intervals for up to 60 months after enrolment. The difference in seroprotection (> or =10 mIU/L) and GMT between study arms remained significant (p < 0.05) at all time points from month 24 to month 60. There is great potential for CpG ODN as vaccine adjuvants and as therapeutic immune modulators. The use of these molecules as a hepatitis B vaccine adjuvant is most promising.

Existing hepatitis B virus (HBV) vaccines produce seroprotective titers in > 90% of healthy adult recipients following 3 doses administered over 6 months. The durability of this response is variable. Vaccine efficacy is greatly diminished in immune compromised patients. Given the high worldwide prevalence and burden of disease produced by chronic HBV infection, vaccines capable of producing high rates of durable seroprotective HBV surface antibody titers are required. Immunostimulatory sequences (ISS) containing repeating sequences of cytosine phosphoguanosine (CpG) dinucleotide motifs have emerged as useful tools for modulating immune responses. Dynavax Technologies produced a synthetic oligodexynucleotide (ODN) containing these motifs, resulting in an unmethylated cytosine and phosphoguanosine ODN called 1018 ISS. Dynavax\'s hepatitis B virus vaccine HEPLISAV is comprised of 1018 ISS mixed with recombinant hepatitis B surface antigen. Clinical trials, to date, have shown that HEPLISAV produces rapid, high titer, sustained seroprotection in healthy adults and vaccine hyporesponsive populations. Although additional supporting data are required, this represents a promising strategy to facilitate worldwide HBV prevention efforts.

CpG oligodeoxynucleotides (ODN) have been described as functioning as natural adjuvants because they promote professional antigen presenting cell (APC) function and co-stimulate lymphocytes. The majority of studies into the immune effects of CpG ODN to date have been carried out on mammals where they are proving very successful at stimulating innate and adaptive immune responses in a variety of species as well as protecting them from bacterial, viral and protozoan pathogens. Fish also possess the ability to raise both innate and adaptive immune responses to invading pathogens and interest in the effect of CpG ODN on the piscine immune system is growing. Various studies have now been carried out to elicit the effects of CpG ODN on diverse fish species showing that 31 different B-class CpG ODN exert various immune responses both in vivo and in vitro in salmonids, cyprinids and pleuronectiformes. These responses include activation of macrophages, proliferation of leucocytes and stimulation of cytokine expression. CpG ODN have also been shown to be protective against bacterial and viral challenge as well as against pathogenic amoebae. As would be expected these effects are all dependent on not only the ODN sequence and length but on the concentration and the species in which it is being used. This review provides the first comprehensive overview of all CpG ODN tested in fish to date and brings together all the work carried out in this field.