Algal Bioactive Compounds against Sexually Transmitted Diseases

Sexually transmitted diseases (STDs) are one of the major global health issues which is either ignored or gets suppressed due to difficulty in bringing forth the discussion in public domain. However, with the advent of time, naturally obtained solutions are making their mark in diagnostic areas. Algae and its bioactive compounds are amongst the natural and environment-friendly compounds which might provide solutions to the global challenges presented by STDs. Recent studies on efficacy of seaweeds as antiviral components exemplify the undivided attention within the area.The marine seaweeds also known as plants of the sea like, blue green algae; red, brown and green algae, have therapeutic preeminent compounds like lectins, sulfated polysaccharides, carrageenan, carotenoids, fucoidans, which has broad antiviral properties. The present review aims on the understanding of the function and potency of bioactive marine algal compounds which might be studied further in an expansive way to be used as a potential drug against various STDs. An effort has been made to decode the composition as well as the constitution of various types of algae that furnish an elevated level of different prospects which can help in paving the way in diversified areas in scientific and medical assistance.

As per the recent global data, it has been deciphered that sexually transmitted diseases like gonorrhea, chlamydia, syphilis has reached its peak in the past decades in countries like the U.S, particularly in 2018 1 . Modern lifestyle and its ways has icreased the transmission in our new generation. The disease has been spreading more prevalently among the teens and young adults aged between 21-25 years 1 . Most of the sexually transmitted diseases (STDs) go unreported due to various underlying reasons like, lack of awareness and knowledge about the disease, lack of any serious symptoms, difficulty in bringing fore the discussion about the sexual diseases.These STDs are generally caused by various prevalent microbes like viruses, bacteria as well as some parasites. Some of the common STDs are, chlamydia, genital warts caused by human papillomavirus (HPV), acquired immune deficiency syndrome (AIDS) caused by human immunodeficiency virus (HIV), gonorrhea, genital herpes, syphilis etc. The studies that have been done so far are few in number. In a report it has been found that sulfated polysaccharides extracted from different algae show broad spectrum antiviral activity against HIV-1 and HIV-2 in vitro 2 . The report says, cyanovirin N, a potential antiviral peptide obtained from cyanobacteria, affects the membrane fusion process during the entry of HIV-1 into the host cells 2 . Another important bioactive compound, sulfoquinovosyldiacylglycerol (sulfoglycolipid) discovered from cyanobacteria species inhibits the reverse transcriptase activity of HIV-1 and HIV-2 2 . In the past decades many active compounds have been discovered from many microorganisms including marine animals, fungi, bacteria, and algae 3 . But both cyanobacteria and eukaryotic algae perform better than other marine organisms 3 .
In the present review we have highlighted the role of cyanobacteria and seaweeds and their potential derivatives to cure STDs. This work will be supportive in terms of future study and to make people aware about the STDs.

Algal derived compounds as treatment
The Algal world has proven to bring forth a long term blend of solutions against environmental pollution to biodiversity sustainability. Algae possess a wide range of bioactive compounds with diverse therapeutic benefits 3,4 . Right from microalgae to macro seaweeds, most of them possess sources of antiviral, anti-inflammatory compounds as well as immune modulators against   5,6,7,8,9 . The algal derived bioactive compounds has the ability to not only impede replication cycle but also delay the rate of infection caused by the viruses by blocking the area through which the viruses enter the cells, hence, providing a new therapeutic window in treatment against viral as well as sexually transmitted infections 10,11,12 .

Marine Algae and their Metabolites Microalgae
Microalgae generally include blue green algae or cyanobacteria, diatoms, and dinoflagellates 3,4,7 . These microalgae have broad spectrum bioactive molecules which have immense potential against viral activity particularly in treatment of HIV. Cyanobacteria like Rivularia sp., Lyngbya majuscula, have significant amount of anti-inflammatory properties 8 .
In general, in HIV infection, the virus impairs the CD4 + T cell recovery. In B-cell signaling, the infection process is found to be reversed by the action of malyngamide F acetate, which binds with the Toll like receptors for example TLR2 or TLR7 that activate the MyD88 pathway, thereby inhibiting the function of IRF7 and NFkâ response. Hence, the compound initiates the restoration of immune function and ultimately virus clearance 13,14 .

Macroalgae
These are generally multicellular organisms and classified according to their pigments-green algae, red algae, brown algae. These macroalgae have influential perspectives of antibacterial, antiviral and antifungal activity 15,16,17,18 . In accordance with the report provided by Deepa et. al. (2017), Gracilaria corticata has commanding power in the treatment  3 . Laminarin, found in brown algae, has been found to function as an antiviral, anti-inflammatory agent 5 . It has also been found, fucoidan has antiviral as well as antibacterial properties and therefore, could be used to treat a wide range of infections and long term infectious diseases 21

Properties of some algal derived Biochemical Compounds Carrageenan
It is a type of linear sulfated polysaccharide generally found in Red algae. This polysaccharide has the ability to inhibit the entry of viral genes in the host genome at various phase points of HIV-1 infection. Capsid is known to show one of the important analytical functions at different stages of the viral replication cycle. Soon after the entry of the virus and subsequent fusion in target cell membranes, the capsid core is released into the cytoplasm and disassembles, which is known as the uncoating 30 .
Carrageenan, by directly binding to the virus, can initiate the adsorption of the virus and ultimately ceases the process of uncoating of the virus particle 8,31 .

Galactan
According to Sansone et. al. (2020), Galactan has been able to successfully pinpoint some encouraging results against HIV by blocking its attachment to the host cell and thus preventing subsequent adhesion of HIV gp120 on CD4 + T cells 32 . It has also been established through reports by Matsuhiro et. al. (2005), that galactan isolated from Schizymenia binderi has the ability to exhibit specificity in antiviral activity with regard to HSV by occluding the adhesion of viruses on the surface of the host cell 33 . Sulfated polysaccharide derived from Hydroclathrus clathratus, a brown algae, has inhibitory properties against HSV-1, HIV-1 as well as human cytomegalovirus (HCMV) where EC50 value count has shown to be low 34 .

Lectins
Griffithsin (GRFT), a group of lectin, derived from red algae, exerts inhibitory effects on viruses which not only cause hepatitis C, HIV, murine herpes simplex virus Type-2 but Middle East respiratory syndrome coronavirus (MERS-CoV) as well. The reason behind the usage of GRFT is because it possesses a high safety profile with almost zero toxicity. The structure of the HIV-1 virion particle comprises 14 spikes. However, out of fourteen, four spikes are essentially required for successful infection caused by the virus. Therefore, GRFT subsequently requires four spikes to neutralize and inhibit the HIV virion-causing infection as followed in the reports of Huskens and Schols (2012) 35 and subsequently by Lee (2019) 36 .

ConCLusion And FuTure ProsPeCTs
Through various inclusive studies, it can be derived that marine algal bioactive molecules present several advantages as potential new therapeutic drugs. Most of the molecules exhibit a broad spectrum antiviral activity against various sexually transmitted diseases especially HIV, HSV and also hepatitis related diseases. They act against the virus by inhibiting their entry and subsequent replication. Biomolecules like lectins present a promising candidate for the prevention of HIV transmission by interacting with the HIV gp 120 14 . Carrageenan in particular has successfully expressed some definite positive effects in inhibiting the HIV activity by blocking the virus from the uncoating stage 8,31,37 . It has also been established that among all the variants of seaweeds, red algae possess the maximum number of biomolecules with potential and powerful antiviral activities against STDs. The previous studies performed by researchers were mainly based on antiviral or antimicrobial properties of seaweeds in general. However, we must make people aware about STDs, and follow the thumb rule of 'prevention is better than cure' by using algae regularly in their diet. Our present study is still an unopened and unexplored book, where we have tried to highlight some active components and their sources briefly, so that budding researchers can get familiar with the topic. Further extensive studies are required in order to bring forth the efficacy of the biomolecules as potential therapeutic treatment on a large scale.

ACknowLedGeMenT
The Department of Botany, Bangabasi Evening College is acknowledged for its laboratory facilities. Authors also thank many researchers from India and abroad for their active guidance and support.

Conflict of interest
Authors declare that there is no conflict of interest.

Funding resource
This research did not receive any financial assistance.