Strigolactones New plant hormones with a rich future and true challenges for organic chemists

StrigolactonesNew plant hormones with a rich futureand true challenges for organic chemists Binne Zwanenburg Radboud University Nijmegen The Netherlands Eur Organic Chem Congr Amsterdam March 3, 2017

Strigolactones are new plant hormones • Strigolactones are new plant hormones with various bio-functions • Germination stimulants for seeds of parasitic weeds • Branching factors for AM fungi • Inhibitors for bud outgrowth and branching Search for more biofunctions will continue Eur Organic Chem Congr Amsterdam March 3, 2017

Parasiticweeds Striga infested field of maize Our motivation to start our study on the molecular aspects of germination stimulants Eur Organic Chem Congr Amsterdam March 3, 2017

Host Parasite NutrientsAssimilates Water Relationship between a hostand a root parasite How parasites work Parasites take nutrient from hosts Eur Organic Chem Congr Amsterdam March 3, 2017

Interaction between host and parasitic weedsimplified scheme releases Chemical signal = germination stimulant Host detrimental effect interaction induction of germination Attachment on host roots Seeds of the parasite Occurrence of Strigaspp: tropical and subtropical areas in Africa and Azia (India). Food crops: maize, sorghum, millet and rice; yield losses 50-90%; 100 million African people suffer. Occurrence of Orobanchespp: mediterranean area, Eastern Europe and Middle East. Food crops: legumes (tomato, fava beans), sunflower and tabacco; damage severe. Eur Organic Chem Congr Amsterdam March 3, 2017

Striga seed germination Germination test of stimulants Seed germination Eur Organic Chem Congr Amsterdam March 3, 2017

Striga seed attached to root of host plant Striga seed attaches to root of host plant and draws nutrition from host Eur Organic Chem Congr Amsterdam March 3, 2017

Naturally occurring germination stimulants Strigol Sorgolactone Alectrol Orobanchol • isolated from red clover • (Yokota et al., 1999) • absolute configuration: confirmed by total synthesis (Mori et al., 1999) • activity: high • LATER: Not correct • isolated from cotton • (Cook et al., 1966) • absolute configuration (Brooks et al., 1985) • isolated from maize • (Siame et al., 1993) • activity 10-7-10-12 M • isolated from sorghum • (Hauck et al., 1992) • absolute configuration: confirmed by total synthesis (Zwanenburg et al., 1997) • activity 10-9-10-12 M • isolated from cowpea • (Müller et al., 1992) • exact structure unknown • for a long time • activity 10-12 M • Correct structure: 2011 Eur Organic Chem Congr Amsterdam March 3, 2017

SLs as germination stimulants • Current state of affairs *Several natural SLs have been isolated and their structures have been elucidated. Examples: strigol, sorgolactone, orobanchol *Plants produce tiny amounts: 15 pg/day. hampers isolation and identification *Recently several structures were corrected: orobanchol, alectrol, solanacol • Needs *Need for sophisticated chromatographic and spectroscopic techniques *Need for the total synthesis of new SLs to confirm structures and to prepare all possible stereoisomers to establish influence of stereochemistry on the bioactivity Eur Organic Chem Congr Amsterdam March 3, 2017

SLs as germination stimulants Two SL families Helps to understand the biosynthesis of SLs Eur Organic Chem Congr Amsterdam March 3, 2017

Roles of organic chemist in parasitic weed research • What can an organic chemist do? • Elucidate structure of naturally occurring stimulants • Total synthesis of natural stimulants • Structure activity relationship • Identify bioactiphore • Design and prepare bioactive analogues • Mode of action • How can we control weed pests? • ? See what happens when we start Eur Organic Chem Congr Amsterdam March 3, 2017

Identification of the Bioactiphore (+)-strigol GR 24 GR 7 Not active GR 5 ED50 10-7S. hermonthica Not active Conclusion: bioactiphore resides in the CD-part Eur Organic Chem Congr Amsterdam March 3, 2017

Tentative Molecular Mechanism (Mode of Action) • Characteristics of the proposed mechanism: Addition/Elimination of nucleophilic site of the receptor • Nucleophilic site e.g.: HS(-), H2N(-) • D-ring serves as a good leaving group E.M. Mangnus, B. Zwanenburg; J.Agric.Food Chem., 1992,40, 1066-1070. Eur Organic Chem Congr Amsterdam March 3, 2017

Relevant Structural Features of SLs Stereochemistry is (very )important A-ring modifications reduce activity not very much a,b-unsaturated system and D-ring are essential Bioactiphore resides here! This model is the basis for designing SL analogues Eur Organic Chem Congr Amsterdam March 3, 2017

New Strigolactones from simple Ketones Strategy: *Incorporate essential structural feature, using simple scaffolds. *Obey the molecular mechanism. *Use simple starting materials. *D-ring must be present Two step synthesis, one pot. Eur Organic Chem Congr Amsterdam March 3, 2017

1 0 0 1 0 0 8 0 8 0 6 0 6 0 4 0 4 0 2 0 2 0 0 0 i n d a n o n e t e t r a l o n e GR 24 i n d a n o n e t e t r a l o n e GR 24 Bioassays of new Strigolactone Analogues from Ketones % germination % germination 1 ppm S. hermontica O.crenata 0.1 ppm 0.01 ppm Eur Organic Chem Congr Amsterdam March 3, 2017

SLs analogues based on the model Many more options, allows structural fine tuning Eur Organic Chem Congr Amsterdam March 3, 2017

Parasitic weed control • Hand weeding: removal of mature parasites may reduce seedbank, damage to host has already occurred, laborious method. • Crop rotation: fallow period; trap crops e.g. cotton (induce germination without being affected  reduction of seedbank); catch crops also attacked, only to reduce seedbank. Requires strict agricultural measures. • Resistent crops: breeding is slow process, some examples known, loss of resistence. • Biological control: little success so far. • Chemical control: some herbicides are effective, e.g. 2,4-D, dicamba, glyphosate Can be used under strict control only. Also damage to crop. • Suicidal germination: treat field with stimulant in absence of host, parasitic seed will germinate, cannot survive without host. Problem: find suitable germinating agent. Advantage: highly specific There is a great need for methods to control parasitic weeds! Eur Organic Chem Congr Amsterdam March 3, 2017

Nijmegen-1 The essential features of the bioactiphore are connected to a simple scaffold, i.e. phthalimide Suical germination: germination in absence of host: seed will die! Nijmegen-1 ED50: 10-7 M Striga hermonthica 10-6 M Orobanche crenata Easy synthesis; potential candidate for use in suicidal germination Nefkens, G.H.L., Thuring, J.W.J.F., Beenakkers, M.F.M., Zwanenburg, B. J. Agric. Food Chem., 1997, 45, 2273-2277. Eur Organic Chem Congr Amsterdam March 3, 2017

Field test with SL analogue Nijmegen-1example of successful suicidal germination tobacco field treated with Nijmegen-1 untreated tobacco field Eur Organic Chem Congr Amsterdam March 3, 2017

Serendipitous finding of SL mimics Disobedient action: violation of the rules of the design model model Surprise:Active!! S. hermonthica: 0.1 mg/L: 18.5 %; 0.01 mg/L: 11% O. cernua: I mg/L : 70%; 0.1 mg/L 31% Germination: Germination: S.Hermonthica R = H 0.1 mg/L: 9%; 0.01 mg/L: 7% R =OH 7%; 21% O. cernua R = H 1 mg/L: 87%; 0.1 mg/L: 78% R = OH 52%; 82% BZ & Mwakaboko, Bioorg Med Chem 7394 (2012) Eur Organic Chem Congr Amsterdam March 3, 2017

SL mimics New development: SL mimics, highly active germination stimulants. However, with Methyl group at C-4: no activity!! Molecular mechanism Interaction with protein receptor probably different from SL analogues Many more options: new avenue!! Eur Organic Chem Congr Amsterdam March 3, 2017

A newapproachfor weed control A novel concept for the control of parasitic weeds by decomposing germination stimulants prior to action Chinnaswamy Kannan and Binne Zwanenburg* Crop Prot. 61, 11-15 (2014) Use of simple chemicals to decompose the stimulant as soon as they are produced by the host root Results are very promising Experiments are ongoing in India Eur Organic Chem Congr Amsterdam March 3, 2017

Biosynthesis of strigolactones, carlactone is key Tentative Synthesis of CL: verydifficult, world record: <1% yield Many ????? Hot topic Eur Organic Chem Congr Amsterdam March 3, 2017

SYNTHESIS Synthesis of NaturalSLs Synthesis of Analogues Eur Organic Chem Congr Amsterdam March 3, 2017

Synthesis of all eight Stereoisomers of Strigol (1)Step 1: Synthesis of ABC part Eur Organic Chem Congr Amsterdam March 3, 2017

Synthesis of all eight Stereoisomers of Strigol (2)Step 2: Introduction of the D-ring Eur Organic Chem Congr Amsterdam March 3, 2017

Synthesis of all eight Stereoisomers of Strigol (3)Step 3: Introduction of the OH in the A-ring Step 4: Separation on a chiral column Eur Organic Chem Congr Amsterdam March 3, 2017

Summary of Synthesis All 8 stereoisomers were bio-assayed Reizelman, Synthesis 2000, 1944 Eur Organic Chem Congr Amsterdam March 3, 2017

Natural stimulant with an aromatic A-ring Important; stereochemistry is related to (+)-strigol as reference Note the assignment of stereochemistry Motivation to prepare aromatic orobanchol (+)-strigol Eur Organic Chem Congr Amsterdam March 3, 2017

Synthesis of Aromatic Orobanchol, introduction of OH in B-ring Ratio: 82:3 The oxidation of the B-ring is tricky Inversion of configuration gives 9b Reagents and conditions: (i) FeCl3 (2 mol %), aq tBuOOH (70%, 3 equiv) pyridine, 82 ºC, 24 h, (ii) NaBH4, CeCl3.7H2O, EtOH, (iii) PPh3, PhCO2H, EtO2CN=NCO2Et, toluene, (iv) K2CO3, MeOH. Eur Organic Chem Congr Amsterdam March 3, 2017

Synthesis of Aromatic Orobanchol, introduction of D-ring, OH down, NO protection needed Reagents and conditions: HCO2Me, t-BuOK, THF, then butenolide 10, DME (ii) Ac2O, pyridine, CH2Cl2. Malik, Kohlen, Jamil, Rutjes, BZ, Org. Biomol. Chem. 9, 2286-2293 (2011) Eur Organic Chem Congr Amsterdam March 3, 2017

Otherbiofunctions Other biofunctions of SLs: Branching factor of AM fungi Control of Plant Growth Eur Organic Chem Congr Amsterdam March 3, 2017

SLs as branching factors for AM fungi Understanding of the communication between plants, arbuscular mycorrhizal (AM) fungi and parasitic plants, a symbiotic pair This interaction with AM fungi needs much attention, lack of understanding on the molecular level, AM fungi improve P and N content in the soil Eur Organic Chem Congr Amsterdam March 3, 2017

SLs as branching factor of AM fungi • SL model structure for the branching factor of AM fungi Eur Organic Chem Congr Amsterdam March 3, 2017

SLs as inhibitors for bud outgrowth and shoot branching • Control of plant architecture is of great practical importance in agriculture • Horticultural studies are a challenge for STREAM • Little is know of the this inhibition process on a molecular level SL model structure for shoot inhibition, one SL analogue and one SL mimic, many possibilities for molecular fine tuning Eur Organic Chem Congr Amsterdam March 3, 2017

Concluding remarks • SLs are new plant hormones with a rich future • They are active at a very low concentration, that is a highly relevant property • They are present in root exudates; insight in the biosynthetic origin is very relevant • Various biofunctions have been discovered, each has it own mode of action on a molecular level • New biofunctions of SLs will be discovered • Some compounds with claimed activity have not been tested correctly, reinvestigation might be of interest. • Total synthesis of natural SLs is a challenge, emphasis on stereochemistry is a must • Identification of the receptor protein is a challenge • Detailing of the mode of action for the various biofunctions is important • Practical applications are a true challenge • Production of stimulants using root culture is an interesting option. • Suicidal germination has promise in the control of the parasitic weeds. • Search for inhibition of germination needs attention. Would open new avenues for parasitic weed control. • Sophisticated equipment and instrumentation opens many new windows • Many problems and challenges in this rapidly evolving field, multidisciplinary research is the future direction for moving the field forward. Eur Organic Chem Congr Amsterdam March 3, 2017

Radboud University Nijmegen, Faculty of ScienceThe Huygens Building 2004 (first wings); Finished 2006 Official opening May 2007 by Queen Beatrix Eur Organic Chem Congr Amsterdam March 3, 2017

Beautiful flowers but a real pest Our ultimate goal: Get rid of the flowers! Molecules with dedicated functions are our hope Thank you for attention Eur Organic Chem Congr Amsterdam March 3, 2017

Strigolactones New plant hormones with a rich future and true challenges for organic chemists

Strigolactones New plant hormones with a rich future and true challenges for organic chemists

Presentation Transcript

Plant Hormones

PLANT HORMONES

Plant Hormones

Plant Hormones

Plant Hormones

Plant Hormones

PLANT HORMONES

Plant Hormones

Plant Hormones

Plant hormones

Plant Hormones

Plant Hormones

Plant hormones

Plant Hormones

Plant Hormones

Plant Hormones

Plant Hormones

Plant Hormones

Plant Hormones

Plant Hormones

Plant Hormones

Plant Hormones