Natural Products : Perspectives and Challenges for use of Brazilian Plant Species in the Bioeconomy

The development of our society has been based on the use of biodiversity, especially for nutrition, medicines and beauty. Brazil is the nation with the largest biodiversity in the world, with a rich chemical diversity, which is a potential source for bioeconomy. Considering the chemical and biological diversity of the Brazilian territory, we would like to highlight the value of secondary metabolites from Brazilian biodiversity with potential application for new products and technologies and the importance of scientific programs to support the sustainable use of biodiversity.


INTRODUCTION
Biodiversity has been the basis for the development and growth of our society.Plant species, were essential for human survival, particularly those having nutrition and medicinal uses.Ancient populations around the planet established a set of useful plant species by a long experienced selection.According to the World health Organization, the use of traditional medicine is growing in developed countries as a complimentary use and reaches 80% in Africa, that depends essentially on plants for primary health care (WhO 2017).Pharmaceutical companies are interested in investigating plants as source for new lead structures and also for the development of standardized herbal agents with proved efficacy, safety and quality (Calixto 2000).The medicinal properties of plants have been the focus of scientific researches in the field of natural products, and great advances were achieved in the last centuries (Valli et al. 2012).The determination of the molecular structure of morphine was the first documented structural elucidation, and since then many natural products medicines or synthetic derived were launched.A glance in the past has shown that the traditional knowledge was the basis of some of the most important medicines that changed the history of humankind health, Figure 1.Nature continues to be extraordinarily generous in providing the most sophisticated natural products, with an incredible variety of complicated structures, so far, very important as models for the production of medicine, cosmetics, food supplements, and other bioproducts.
Given the number of plant species on earth and the several biosynthetic pathways capable of producing extraordinary chemical diversity, biodiversity in tropical and equatorial environments offers a particularly rich potential in biologically active compounds that can be used as models for medicinal chemistry and drug discovery (Bolzani et al. 2012).The biosynthetic pathways of several classes of secondary metabolites in plants species may afford many kind of natural products such as lignans, flavonoids, terpenes, alkaloids, etc (Figure 2).
The term biodiversity can be defined as the variety and complexity among living organisms, encompassing species, DNA, genes, proteome, metabolome and their interaction with their ecological systems (Wilson 1999, Noss 1990).Associated with biodiversity, there is a rich diversity of natural compounds with peculiar structures that are still one of the most sophisticated sources of new molecular models for medicinal chemistry, development of new drugs, agrochemicals, fragrances, cosmetics, and food supplements.Among the 1211 new low molecular weight prototypes (known as New Chemical entities -NCe) introduced on the world market as pharmaceuticals during the period 1981-2014, 60% are derived from natural products, mimetics or designed from natural product structures (Newman and Cragg 2016).
Brazil is the country with the largest biodiversity in the world and has been taking actions to preserve it, being the first nation to sign the Convention on Biological Diversity in 1992.(mmA 2017).Brazil has an area of 8,511,996 km² in which six terrestrial biomes are distributed (the Amazon rainforest, the Caatinga, the savana-like Cerrado, the Atlantic Forest, the swamp known as the Pantanal and the Pampas) and a sea coast of 7,491 km hosting three marine ecosystems and twelve major hydrographic regions (Figure 3, mmA 2017).Two of these ecosystems, the Atlantic Forest and the Cerrado, are considered hotspots of biodiversity due to the accelerated loss of biological diversity caused by urbanization, agriculture and livestock.(mmA 2017, myers et al. 2000).
Bioeconomy is not a business segment or a specific scientific innovation but includes "all  variety and number of compounds now accessible that were once restricted to naturally occurring metabolites (murphy 2011).
Brazil could be a leader in this economic transition since it is granted with all the conditions to be a sustainable model.It has the largest biodiversity of the globe, suitable climate condition, abundant land, relative small population and plenty of natural resources.Infrastructure has to be improved and greener technologies must be incorporated to industry and agriculture.Brazilian economic success heavily relied on commodity exports.This commodity success deviated attention from important actions that should have been done in structural (infrastructure, political reforms) and institutional (education, research, institutes) investments.Brazil failed in converting its economic boom into knowledge, as can be seen by the global share of high added value export that scarcely changed in the last 20 years (Gallagher and Porzecanski 2010).Brazil should now "run after the lost time" and heavily invest in turning commodities to high added value products.
That means investing evenly in education, science and innovative industry.maybe more important than investment, Brazil should focus on improving public management and supporting innovation by reducing bureaucracy.As an example, patent application in Brazil expects to wait 11 years to be approved, but this has started to be addressed (INPI 2017).
Considering the chemical and biological diversity present in Brazil, there is a universe of opportunities for bio-based innovation.There are a few Brazilian natural products that were successfully used to develop new products and give evidence of the country biodiversity potential.Brazilian biodiversity is undoubtedly vast.Nevertheless, few products have emerged from this rich chemical universe.
The discovery of bradykinin (1) (Figure 4), isolated from the venom of Bothrops jararaca, is one of these examples (Ferreira et al. 1970).This peptide is an inhibitor of the angiotensinconverting enzyme (ACe), which is responsible for the conversion of angiotensin I to angiotensin (3) (Figure 5) as one of the active compounds.Besides that, Stryphnodendron adstringens (mart.) is traditionally used in wound healing, and the pharmaceutical company Apsen Farmacêutica have developed Fitoscar ® , an ointment based on this species that contain a mixture of phenolic derivatives, mainly condensed tannins (Souza et al. 2007(Souza et al. , minatel et al. 2010)).
Recent work on Brazilian fruits has led to the isolation of several phenolics from Spondias tuberosa (Anacardiaceae), by a combination of hPlC-UV-mS, hPlC-microfractionation, followed by biological assays aimed at the localization of the active compounds.An efficient isolation procedure was performed on the meOh extract using a gradient transfer of analytical hPlC conditions to the preparative mPlC-UV separation.This method afforded the isolation of seven compounds, including two new natural products.Compounds 4 and 5 (Figure 6) presented high antioxidant activity and acetylcholinesterase inhibition.This data was   2013).NuBBe DB currently provides data of more than 2000 compounds of plants, marine organisms, fungi, etc, and contains chemical (metabolic class, chemical structure, physicochemical properties, common and IUPAC name and molecular mass), biological (occurrence, habitat, biological activities), pharmacological and spectroscopic data (Pilon et al. 2017).This database is freely accessible online, where it is possible to search for properties, chemical structure, class of natural products or a combination of molecular or biological criteria (NUBBeDB 2017).
The scientific information published in more than 50 years of studies on Brazilian biodiversity becomes easier to access when standardized, certified and organized in a database.The access and mapping of the molecular heritage of Brazilian biodiversity significantly reduces the time spent in understanding and increases feasibility of applying processes that involve technological research.This information center is freely available online in order to bring benefits both to science and to strengthen the national bioeconomy.Countries like Germany and england have a robust bioeconomy although they do not have a great biodiversity in their territories.In this sense, the objective of NuBBe DB is to assist in the development of different fields of Brazilian science, technological development of biodiversity products with high added value and public policies.The NuBBe DB is being used by the scientific community (Villoutreix et al. 2013, harvey et al. 2015, Kuenemann et al. 2016, Neves et al. 2015, mohamed et al. 2016),

Figure 1
Figure 1 -A few natural products used as medicines identified in the last century.

Figure 4 -
Figure 4 -Bradykinin (1), a peptide extracted from Bothrops jararaca and the drug captopril (2, Captoten®) an ACe inhibitor used for the treatment of hypertension designed from molecular simplification of 1..

Figure 5 -
Figure 5 -The flavonoid vitexin (3), from the Passiflora incarnata extract, one of the compounds present in the herbal medicine Sintocalmy ®