Memory and CAR-NK cell-based novel approaches for HIV vaccination and eradication

Human immunodeficiency virus (HIV) is one of the critical infectious agents with thousands of newly infected people worldwide. High mutational capability and rapid diversification, inhibition of humoral and cellular immune responses, and thus inability for recognition of an immunogenic region in the viral envelope by the immune system are major challenges. Natural killer (NK) cells are multifunctional, playing a key role in the identification and elimination of HIV-infected cells. These cells identify and eliminate virus-infected cells in a multilateral manner, such as ligand stress, antibody-dependent cell cytotoxicity (ADCC), T follicular helper (Tfh), and the activation of most of the stimulatory receptors. Moreover, these cells release cytokines leading to the activation of cytotoxic lymphocytes (CTLs) and dendritic cells (DCs), contributing to efficient viral elimination. Some subsets of NK cells exhibit putatively enhanced effector functions against viruses following vaccination easily expanded and identified by NK cell lines culture. Furthermore, NK cells promote the elimination of HIV-infected cells which reduce the expression of major histocompatibility complex (MHC) molecules. Memory NK cells have higher functionality and renewable potential. A pioneering strategy to establish an efficacious HIV vaccine would include stimulation of the accumulation and long-term maintenance of these HIV-reactive NK cells. CAR-NK (chimeric antigen receptor-natural killer) cells-based antiviral therapies have emerged as novel approaches with the ability of antigen recognition and more advantages than CAR-T (chimeric antigen receptor-T) cells. Recent development of induced pluripotent stem cell (iPSC)-derived NK cells with enhanced activity and efficiency conferred a promising insight into CAR-NK cell-based therapies. Therefore, memory and CAR-NK cells-based approaches can emerge as novel strategies providing implications for HIV vaccine design and therapy.     

Genetic diversity and phylogenetic analysis of HPV 16 & 18 variants isolated from cervical specimens of women in Saudi Arabia

Human papillomavirus (HPV) are well known to be associated with the development of cervical cancer. HPV16 and HPV 18 are known as high-risk types and reported to be predominantly associated with cervical cancer. The prevalence and genetic diversity of HPV have been well documented globally but, in the Kingdom of Saudi Arabia, data on HPV genetic diversity are lacking. In this study, we have analyzed the genetic diversity of both HPV16 and HPV18 based on their L1 gene sequence because L1 gene is a major capsid protein gene and has been utilized to develop a prophylactic vaccine. In January 2011–2012, a total of forty samples from cervical specimens of women in Saudi Arabia were collected. The association of HPV16, HPV18 was detected by polymerase chain reaction, sequenced and submitted to GenBank. The sequences identity matrix and the phylogenetic relationship were analyzed with selected HPVs. The highest sequence identity (99.5%) for HPV16 and (99.3%) for HPV was observed with selected HPVs. The phylogenetic analysis results showed that HPVs from Saudi Arabia formed a closed cluster with African, Asian, East Asian as well as American HPVs distributed into multiple linages from various geographical locations. The results provided the valuable information about genetic diversity, but there is an urgent need to generate full genome sequence information which will provide a clearer picture of the genetic diversity and evolution of HPVs in Saudi Arabia. In conclusion, the generated data will be highly beneficial for developing molecular diagnostic tools, analyzing and correlating the epidemiological data to determine the risk of cervical cancer and finally to develop a vaccine for Saudi Arabian population.