Procedures to Isolate Algal-Derived Endophytic Fungi
To obtain endophytic fungal strains, fresh algal samples should be collected and processed immediately [6 ]. The isolation of endophytic fungi is generally carried out using an indirect isolation method. Fresh algal samples should be rinsed at least three times with sterile H2 O. After surface sterilization with 70 % EtOH (v/v) or 10 % sodium hypochlorite for a few seconds, the algal material should be rinsed again in sterile seawater and then aseptically cut into small pieces and placed on agar plates containing the isolation medium (15 g/L agar, 15 g/L sucrose, and chloramphenicol 200 mg/L) [6 ]. It should be pointed out that the sterilization time is important and it must be balanced at an appropriate level. For the microalgae, the sterilization time should be limited to 10–20 s in EtOH and/or sodium hypochlorite, whereas for the macroalgae it can be extended to 60–120 s [5 ]. A short time might cause the sterilization of the outer part to be incomplete, while a long time might kill the desired endophytic fungi [5 ]. To distinguish remaining epiphytic fungi from endophytic fungi, an imprint of the algal surface on biomalt agar has been recommended [6 ]. Fungi growing exclusively out of the algal tissue were separated on biomalt medium (malt extract 15 g/L, agar 15 g/L). After repeated transferring of the hyphal tips for purification of the fungal strains, the endophytes can be successfully isolated from the inner parts of the tissue.
Polyketides
Parasitenone (1 ) ([Fig. 1 ]), a new gabosine derivative with moderate free radical scavenging activity, was isolated from a culture of the fungus Aspergillus parasiticus # MFA 153 from the red alga Carpopeltis cornea (collected in Ulsan City, Korea). On the basis of CD data and a chemical transformation, the absolute configuration of 1 was determined to be (4S ,5S ,6S ) [7 ]. 5-Hydroxyramulosin (2 ), originating from Phoma tropica , was isolated from the brown alga Fucus spiralis (collected around the Azorean island of Faial, Portugal) and its structure was secured by single crystal X-ray diffraction analysis [8 ]. A culture of the fungus Wardomyces anomalus OS4T3-2-1, isolated from the green alga Enteromorpha sp. (collected around Fehmarn island in the Baltic Sea), yielded two xanthone derivatives, anomalins A (3 ) and B (4 ). Anomalin A (3 ) possessed significant p56(lck) tyrosine kinase inhibitory and antioxidative activity [9 ]. Strictly speaking, the strain W. anomalus is an algicolous fungus. However, herein we also define it as an endophyte considering the indirect isolation method and the reciprocal advantageous relationship between this fungus and its host Enteromorpha sp. [9 ]. A new isochroman derivative named pseudodeflectusin (5 ) was isolated from a culture broth of Aspergillus pseudodeflectus Hiji005 (isolated from brown alga Sargassum fusiform , which was collected in the Miura Peninsula, Japan). This compound exhibited modest but selective cytotoxic activity against several human cancer cell lines including the stomach (NUGC-3), cervix (HeLa-S3), and peripheral blood (HL-60), with LD50 values of 49, 47, and 39 µM, respectively [10 ]. A Cladosporium L037 species from the brown alga Actinotrichia fragilis (collected off Seragaki Beach at Okinawa Island, Japan) produced two 12-membered macrolides, sporiolides A (6 ) and B (7 ). Sporiolides 6 and 7 exhibited potent cytotoxicity against murine lymphoma L1210 cells with IC50 values of 0.37 and 3.1 µM, respectively. In addition, sporiolide A (6 ) had moderate antifungal activity against a range of pathogenic fungi, while both sporiolides A (6 ) and B (7 ) were active against Micrococcus luteus [11 ]. The fungus Apiospora montagnei 581/H2 15E, isolated from the inner tissue of the North Sea alga Polysiphonia violacea , was the source of the polyketide apiosporic acid (8 ), monomethyl ester of 9-hydroxyhexylitaconate (9 ), and the (−)-enantiomer (10 ) of the known (+)-hexylitaconic acid [12 ]. The mycelium extract of an unidentified endophytic fungus (strain no. ZZF36) from the brown alga Sargassum sp. (obtained from the South China Sea) yielded two new 12-membered lactones, 6-oxo-de-O -methyllasiodiplodin (11 ) and (E )-9-etheno-lasiodiplodin (12 ), as well as the related known compound lasiodiplodin, and the structure of compound 11 was confirmed by single crystal X-ray diffraction analysis [13 ]. Lasiodiplodin and its relatives possess various antibacterial activities. However, compound 11 , with a ketone carbonyl group, showed no activity to all of these tested aerobic reference strains [13 ]. The endophytic fungus Aspergillus sydowii , isolated from the red alga Acanthophora spicifera (collected from Rameswaram, south India), produced two new chlorinated 2,5-diarylcyclopentenones, sydowins A (13 ) and B (14 ). It is interesting that this kind of fungal metabolite has hitherto only been described from higher basidiomycetes, but is characterized for the first time from an ascomycete in this study [14 ]. 4-Ketoclonostachydiol (15 ), a known fungal metabolite possessing very strong cytotoxicity, was isolated from a marine algal-derived fungus, Gliocladium sp. (obtained from the New Zealand alga Durvillaea antarctica ), by bioactivity profiling using HPLC/microtiter plate analysis. The absolute configuration of 15 was elucidated by reduction action from 15 to its derivative, clonostachydiol [15 ]. Asperflavin ribofuranoside (16 ), an anthracene glycoside, was characterized from the culture extract of Microsporum sp. MFA212-1, a fungus isolated from the marine red alga Lomentaria catenata (Ulsan City, Korea). Compound 16 showed moderate antibacterial activity against the methicillin-resistant and multidrug-resistant Staphylococcus aureus (MRSA and MDRSA) with an MIC value of 119.6 µM [16 ]. Cultivation of the endophytic fungus Emericella nidulans var. acristata (No. Sar 14 15E, isolated from a Mediterranean green alga) produced the prenylated polyketides arugosins G (17 ) and H (18 ). Arugosin H (18 ) was active against the fungus Mycotypha microspora and the green alga Chlorella fusca [17 ].
Fig. 1 Polyketides characterized from algal-derived fungi.
Cultivation of Chaetomium globosum , an endophytic fungus isolated from the red alga Polysiphonia urceolata (Qingdao coastline, China), resulted in the isolation of chaetopyranin (19 ) ([Fig. 1 ]), a new benzaldehyde secondary metabolite, which was found to have moderate activity against three human tumor cell lines, with IC50 values of 48.7 (human microvascular endothelial cells, HMEC), 90.2 (hepatocellular carcinoma cells, SMMC-7721), and 123.7 µM (human lung epithelial cells, A549), in addition to DPPH radical-scavenging properties [6 ]. Four monomeric xanthones, including monodictysins A–C (20 –22 ) and monodictyxanthone (23 ) as well as a benzophenone monodictyphenone (24 ), were identified from a culture of Monodictys putredinis (No. 187/195 15 I, isolated from the inner tissue of a marine green alga from Tenerife, Spain). Among them, monodictysin B (21 ) inhibited cytochrome P450 1 A activity, while monodictysin C (22 ) displayed moderate activity as inducers of NAD(P)H : quinone reductase (QR) in cultured mouse Hepa 1c1c7 cells. Besides, monodictysin C (22 ) showed weak inhibition of aromatase activity [18 ]. Three new polyketides, chaetocyclinones A–C (25 –27 ), were produced by Chaetomium sp. Gö 100/2, which was isolated from an unidentified marine alga (source not given). Chaetocyclinone A (25 ) exhibited inhibitory activity against the selected phytopathogenic fungus Phytophthora infestans . By feeding 13 C-labelled acetate, the biosynthesis of chaetocyclinones A (25 ) and C (27 ) was revealed to corroborate a polyketide pathway and suggested an unusual condensation of two highly reactive heptaketide intermediates [19 ]. Investigations of the marine-derived fungus Monodictys putredinis 195 15 I, isolated from an unidentified green alga (collected in Tenerife, Spain), yielded two novel dimeric xanthone derivatives, monodictyochrome A (28 ) and B (29 ), as inhibitors of cytochrome P450 1 A (with IC50 values of 5.3 and 7.5 µM, respectively) and moderate inducers of QR activity with CD values (concentration required to double the specific activity of QR) of 22.1 and 24.8 µM, respectively [20 ]. Fermentation of an unidentified fungal strain (HJ33moB) derived from an unknown marine alga, which was collected on Hatijou Island, Japan, afforded a new compound, 1-deoxyrubralactone (30 ), as selective inhibitors of a selection of eukaryotic DNA polymerases [21 ]. Cultivation of a Chaetomium sp. (No. 620/GrK 1a) separated from an unidentified marine alga (originated from Kamari on the island Santorini, Greece) yielded chaetoxanthones A–C (31 –33 ). Chaetoxanthones A (31 ) and B (32 ) are substituted with a dioxane/tetrahydropyran moiety that is rarely observed in natural products, while chaetoxanthone C (33 ) was identified as a chlorinated xanthone substituted with a tetrahydropyran ring. Chaetoxanthones B (32 ) and C (33 ) displayed selective activity against the protozoan Plasmodium falciparum and Trypanosoma cruzi , with IC50 values of 1.4 and 3.8 µM, respectively [22 ]. Fermentation of a Curvularia sp. (strain no. 768) obtained from the red alga Acanthaphora spicifera (collected in Apra Harbor, Guam) yielded four new 10-membered lactones (34 –37 ) [23 ]. From the same fungus, the novel macrolide apralactone A (38 ), a 14-membered phenyl acetic acid macrolactone, as well as the antipodes of curvularin macrolides (39 –44 ) were also isolated and were found to be cytotoxic towards human tumor cell lines [24 ]. The fungus Coniothyrium cereal , isolated from the green alga Enteromorpha sp. (collected from Fehmarn, Baltic Sea), produced six new phenalenone derivatives (45 –50 ). Of the isolated metabolites, conioscleroderolide (48 ) inhibited the growth of S. aureus (with an MIC value of 24 µM) and proved to be the potent inhibitor of human leukocyte elastase (HLE) (with an IC50 value of 13.3 µM), while (Z )-coniosclerodinol (45 ), sclerodinol (47 ), and coniolactone (50 ) inhibited the growth of Mycobacterium phlei [25 ]. Penicillium chrysogenum QEN-24S, isolated from the red alga Laurencia sp. (collected from the Weizhou Island, south China sea), was the producer of the polyketide penicitides A (51 ) and B (52 ) and the glycerol derivative (53 ). Penicitide A (51 ) exhibited moderate cytotoxic activity against the human hepatocellular liver carcinoma cell line with an IC50 value of 111.9 µM [26 ].
From the endophytic fungus Aspergillus versicolor EN-7 (isolated from the brown alga Sargassum thunbergii that was collected along the Qingdao coastline, China), the anthraquinone compound 6,8-di-O -methylaverantin (54 ) was obtained with weak inhibition against Escherichia coli [27 ] ([Fig. 1 ]). The anthraquinone isorhodoptilometrin-1-methyl ether (55 ) was isolated from another endophytic fungus, A. versicolor (isolated from the Egyptian Red Sea green alga Halimeda opuntia ), and displayed moderate antimicrobial activity against Bacillus subtilis, Bacillus cereus , and S. aureus [28 ]. The lactone helicascolide C (56 ) was isolated from an endophytic Daldinia eschscholzii from the agar-producing red alga Gracilaria sp. (collected in South Sulawesi, Indonesia) and was fungistatic against the phytopathogenic fungus Cladosporium cucumerinum [29 ]. The endophytic fungus C. cereal , isolated from the green alga Enteromorpha sp. (Baltic Sea), produced the structurally unprecedented polyketide cereoanhydride (57 ). Experiments with feeding 13 C-labeled acetate proved the polyketide nature of the major and the known C. cereale metabolite (−)-trypethelone, which is proposed to be the precursor of cereoanhydride (57 ) [30 ].
An endophytic fungus, Aspergillus terreus , isolated from red alga Laurencia ceylanica (east coast of Sri Lanka), produced a new butyrolactone (58 ) ([Fig. 1 ]), which was a remarkable inhibitor of the enzyme β -glucuronidase, with an IC50 value of 6.2 µM, when compared with the positive control, glucosaccharo-(1,4)-lactone (with an IC50 value of 48.4 µM) [31 ]. A new secoanthraquinone derivative, wentiquinone A (59 ), along with wentiquinone B (60 ), which was claimed as a new compound, were isolated from the culture extracts of Aspergillus wentii EN-48, an endophytic fungus derived from an unidentified marine brown algal species of the genus Sargassum (source not given) [32 ]. The structure of wentiquinone B (60 ) was found to be the same as the previously reported structure of guepinone, which was identified from Pestalotiopsis guepinii , an endophytic fungus obtained from the medicinal plant Virola michelii [33 ]. It should be pointed out that the structures of secoanthraquinone derivatives 59 and 60 were suggested to be revised to the xanthones 59a and 60a , respectively, according to the detailed analysis of the NMR data [34 ]. The same species of endophytic A. wentii pt-1, but isolated from the red alga Gymnogongrus flabelliformis (Pingtan Island, China), resulted in the isolation of three xanthone derivatives, yicathins A–C (61 –63 ). Yicathin B (62 ) was active against E. coli , and yicathin C (63 ) could inhibit E. coli, S. aureus , and C. lagenarium [35 ].
Cultivation of the fungal strain Eurotium cristatum EN-220, an endophyte obtained from the marine brown alga Sargassum thunbergii (Qingdao, China), afforded a new anthraquinone glycoside, 3-O -(α -D-ribofuranosyl)-questinol (64 ) and a new orsellinic acid ester, cristatumside A (65 ) [36 ]. A new seco -anthraquinone wentiquinone C (66 ) was characterized from the marine algal-derived endophytic fungus Aspergillus wentii EN-48 (brown alga Sargassum sp., source not given) [37 ]. Detailed comparison of the NMR data between anthraquinones and xanthones suggested the revision of seco -anthraquinone wentiquinone C (66 ) to be a xanthone structure (66a ) [34 ].
Fermentation of the marine-derived endophytic fungus Paecilomyces variotii EN-291 from the red alga Grateloupia turuturu (Qingdao, China) resulted in the isolation of two new butenolides, butyrolactone IX (67 ) and aspulvinone O (68 ) ([Fig. 1 ]). Aspulvinone O (68 ) showed potent DPPH radical scavenging activity with an IC50 value of 11.6 µM [38 ].
It should be pointed out that polyketides are generally produced through the acetate-malonate (AA-MA) biosynthetic pathway. However, some metabolites have provided valuable access to novel hybrid chemotypes derived from different biosynthetic routes, including mevalonic acid and shikimate mixed pathways. In view of this point, isocoumarins (e.g., compound 30 ), chromones (e.g., compounds 20 and 28 ), quinines (e.g., compound 54 ), xanthones (e.g., compounds 31 –33 ), phenols and phenolic acids (e.g., compound 53 ), lactones (e.g., compounds 6 and 67 ), and miscellaneous polyketides (e.g., compounds 13 and 58 ) are all classified into polyketides in this review.
Terpenoids
Sesquiterpenes: Ten new sesquiterpenoids, isosativenetriol (69 ), drechslerines A (70 ) and B (71 ), 9-hydroxyhelminthosporol (72 ), drechslerines C–G (73 –77 ), and sativene epoxide (78 ) ([Fig. 2 ]), were isolated from a culture of the fungus Drechslera dematioidea from the inner tissue of the marine red alga Liagora viscida (Mediterranean Sea). Drechslerines E (75 ) and G (77 ) exhibited antiplasmodial activity against two P. falciparum strains (IC50 values ≤ 20.2 µM) [39 ]. The mitosporic fungus Geniculosporum sp. (strain no. 6580), associated with a red algal Polysiphonia species (Baltic Sea, Germany), was cultured to produce 11 new botryane sesquiterpenoids (79 –89 ), some of which displayed modest herbicidal, antifungal, and antibacterial activities. Their structures were determined by X-ray single crystal analysis and found to be different from known botryanes in substitution pattern and altered sites of oxidation, alkylation, and unsaturation [40 ]. The fungus Cadophora malorum SY3-1-1MIT, isolated from the green alga Enteromorpha sp. (source not given), was the source of four new hydroxylated sclerosporin derivatives, 15-hydroxysclerosporin (90 ), 12-hydroxysclerosporin (91 ), 11-hydroxysclerosporin (92 ), and 8-hydroxysclerosporin (93 ). 8-Hydroxysclerosporin (93 ) showed a weak fat-accumulation inhibitory activity against 3T3-L1 murine adipocytes [41 ]. Chemical investigations of the fungus Verticillium tenerum derived from an unknown marine alga (source not given) yielded two new hydroxylated bisabolane-type sesquiterpenes, verticinols A (94 ) and B (95 ) [42 ]. The endophytic A. versicolor d129 (from green alga Codium fragile collected off the coast of Dalian, China) produced the sesquiterpene albican-11,14-diol (96 ), which possessed potent activity against brine shrimp, E. coli , and S. aureus [43 ]. Two new eudesmane sesquiterpenes, (97 ) and (98 ), were produced as stress metabolites in the cultured mycelia of Pestalotiopsis sp. Z233, isolated from the brown alga Sargassum horneri (Wenzhou island, China), in response to abiotic stress elicitation by CuCl2 . Both metabolites showed tyrosinase inhibitory activities with IC50 values of 14.8 and 22.3 µM [44 ].
Fig. 2 Sesquiterpenes characterized from algal-derived fungi.
Diterpenes: A new diterpene, myrocin A (99 ) ([Fig. 3 ]), was isolated from the fungus Apiospora montagnei 581/H2 15E, which was isolated from the inner tissue of the North Sea red alga Polysiphonia violacea [12 ]. The diterpene phomactin H (100 ), with a novel skeleton having an oxepane moiety, was obtained from an unidentified fungus isolated from a brown alga Ishige okamurae (Tateishi, Japan). The structure and relative stereochemistry were determined by X-ray analysis [45 ]. Three new diterpenes, phomactin I (101 ), 13-epi -phomactin I (102 ), and phomactin J (103 ), were isolated from an unidentified fungus (MPUC046) of the family Dothideales (brown alga Ishige okamurae collected from Kanagawa Prefecture, Japan), and their structures were confirmed by X-ray crystallographic methods [46 ]. Subsequently, the same fungus afforded phomactins K–M (104 –106 ) [47 ]. It is interesting that phomactin-type diterpenes were isolated from the fungus MPUC046, which is far from Phoma sp. genetically. Examination of the endophytic Aspergillus wentii EN-48 from an unidentified marine brown algal species of the genus Sargassum revealed three new tetranorlabdane diterpenoids, asperolides A–C (107 –109 ). The structure and absolute configuration of asperolide A (107 ) were confirmed by X-ray crystallographic analysis and by application of the modified Mosherʼs method [48 ].
Fig. 3 Diterpenes characterized from algal-derived fungi.
Sesterterpenes: Five new sesterterpenes, (6α )-21-deoxyophiobolin G (110 ), (6α )-16,17-dihydro-21-deoxyophiobolin G (111 ), and ophiobolins U–W (112 –114 ) ([Fig. 4 ]), were isolated from Aspergillus ustus cf-42, a fungus obtained from the fresh tissue of marine green alga Codium fragile (Zhoushan Island, China). Their absolute configurations were predicted by quantum chemical calculations. Quantum chemical calculations of electronic circular dichroism (ECD) spectra have been proven to be reliable tools in deducing the absolute configurations of natural products [49 ]. To establish the absolute configuration of 110 , its ECD spectrum was determined and calculated. The energy-minimized conformer was generated by the Dreiding force field, which was subjected to the theoretical calculation of the ECD spectrum using the time-dependent density function theory (TD-DFT) method. The calculated ECD spectrum of 110 matched well with the experimental one, which suggested the absolute configuration of 110 to be the same as deduced. Ophiobolin U (112 ) moderately inhibited the growth of E. coli (inhibitory diameter of 15 mm) [49 ].
Fig. 4 Sesterterpenes characterized from algal-derived fungi.
Steroids
7-Nor-ergosterolide (115 ), a rare 7-norsteroid with an unusual pentalactone B-ring system, and two related derivatives, 3β ,11α -dihydroxyergosta-8,24(28)-dien-7-one (116 ) and 3β -hydroxyergosta-8,24(28)-dien-7-one (117 ) ([Fig. 5 ]), were characterized from the culture of Aspergillus ochraceus EN-31, an endophytic fungus isolated from the marine brown alga Sargassum kjellmanianum (Dalian coastline, China) [50 ]. Compounds 115 and 117 , although claimed as new, had been previously reported from a Penicillium sp [51 ]. 7-Nor-ergosterolide (115 ) displayed cytotoxicity against NCI-H460, SMMC-7721, and SW1990 cell lines with IC50 values of 12.1, 16.9, and 67.6 µM, respectively [50 ]. A new steroid (118 ) was isolated from the culture of Aspergillus flavus cf-5, an endophytic fungus isolated from the marine red alga Corallina officinalis (Yantai, China). Compound 118 exhibited low inhibition of acetylcholinesterase (AChE) [52 ]. The endophytic fungus Gibberella zeae cf-18, isolated from the green alga Codium fragile (Yantai, China), yielded a known steroid, which was originally incorrectly assigned as (22E )-5,6α -epoxy-3β ,8β ,14α -trihydroxy-5α -ergost-22-en-7-one, but was corrected to (22E ,24R )-7β ,8β -epoxy-3β ,5α ,9α -trihydroxyergosta-22-en-6-one (119 ) [53 ]. Two new polyoxygenated steroids, penicisteroids A (120 ) and B (121 ), were obtained from the culture of Penicillium chrysogenum QEN-24S, an endophytic fungus isolated from the red alga Laurencia sp (source not given). Penicisteroid A (120 ), which is a structurally unique steroid possessing tetrahydroxy and C-16-acetoxy groups, was potently antifungal and selectively cytotoxic to three HTCLs (HeLa, SW1990, and NCI-H460 with the IC50 values of 29.6, 61.3, and 79.1 µM, respectively) [54 ]. Investigation of the fungus Phaeosphaeria spartinae , an endophyte of the marine red alga Ceramium sp. (North Sea, Büsum, Germany), led to the isolation of spartopregnenolone (122 ). The unusual structure of 122 is intriguing, as it possesses features of triterpenes and steroids [55 ].
Fig. 5 Steroids characterized from algal-derived fungi.
Nitrogenated compounds
Amines and amides: A novel isocoumarin (123 ) ([Fig. 6 ]), which possesses an unusual seven-membered ring in its side chain, was isolated from the culture broth of Alternaria tenuis Sg17-1, from an unidentified alga (Zhoushan Island, China), showed cytotoxicities in vitro against human malignant A375-S2 and Hela cell lines with IC50 values of 0.3 and 0.05 mM, respectively [56 ]. Fermentation of a Penicillium sp. (CANU MCPT14-1–5), isolated from a surface-sterilized thallus segment of the brown alga Xiphophora gladiata (Macrocarpa Point, New Zealand), led to the isolation and characterization of two new 2-pyridone alkaloids, (124 ) and (125 ) [57 ], while a new phenethyl-α -pyrone derivative, isopyrophen (126 ), was characterized from the culture of Aspergillus niger EN-13, an endophytic fungus isolated from the inner tissue of the marine brown alga Colpomenia sinuosa (Qingdao coastline, China) [58 ]. Aspergillus flavus MFA500 from the green alga Codium fragile (GeoMun Island, Korea) provided the cerebroside derivatives flavusides A (127 ) and B (128 ), which exhibited mild antibacterial activity against S. aureus , methicillin-resistant S. aureus , and multidrug-resistant S. aureus [59 ]. From the endophytic Gibberella zeae cf-18 mentioned above, a new pyrrolidine (129 ), an inhibitor of A549 and BEL-7402 cell lines, was obtained [53 ], while a new benzamide derivative [methyl 4-(3,4-dihydroxybenzamido)butanoate (130 )], was characterized from the marine algal-derived endophytic fungus Aspergillus wentii EN-48 with significant DPPH radical scavenging activity and an IC50 value of 23.1 µM [37 ].
Fig. 6 Nitrogenated compounds characterized from algal-derived fungi.
Quinolines and quinazoline derivatives: A novel benzonaphthyridinedione derivative, chaetominedione (131 ) ([Fig. 6 ]), proved to be a potent tyrosine kinase inhibitor and was isolated from culture of Chaetomium sp. Az 3-10 separated from the alga Valonia utricularis (Azores, Atlantic Ocean) [60 ]. A new fungus-derived benzodiazepine analogue, 2-hydroxycircumdatin C (132 ), was isolated from Aspergillus ochraceus EN-31, an endophytic fungus derived from the marine brown alga Sargassum kjellmanianum (Dalian coastline, China). 2-Hydroxycircumdatin C (132 ) exhibited significant DPPH radical scavenging activity, with an IC50 value of 9.9 µM [61 ]. A chemical investigation of the endophytic fungus Aspergillus carneus KMM 4638 from the brown alga Laminaria sachalinensis (Kunachir Island) yielded two new quinazolinone derivatives, carnequinazolines B (133 ) and C (134 ), with antimicrobial and cytotoxic activities [62 ], while an oxepin-containing alkaloid (135 ) and a quinazolinone-containing alkaloid (136 ) were obtained from the same fungus [63 ]. A marine-derived endophytic fungus, Paecilomyces variotii EN-291 from the marine red alga Grateloupia turuturu (Qingdao, China), yielded varioxepine A (137 ) with inhibitory activity against the plant pathogenic fungus Fusarium graminearum , with an MIC value of 8.6 µM. Varioxepine A is a 3 H -oxepine-containing alkaloid containing a condensed 3,6,8-trioxabicyclo[3.2.1]octane unit, which has not been reported yet in natural products [64 ]. Further investigation of the same fungal strain led to the identification of two new oxepine-containing diketopiperazine-type alkaloids, varioloids A (138 ) and B (139 ). The identification of varioloid A as a metabolite of P. variotii EN-291 supported its role as a biosynthetic precursor to varioxepine A (137 ). Meanwhile, varioloids A and B also exhibited potent activity against the plant pathogenic fungus F. graminearum , with MIC values of 17.3 and 10.2 µM, respectively [65 ].
Indole derivatives: Penicillium citrinum N-059, isolated from the red alga Actinotrichia fragilis (Hedo Cape, Okinawa Island), was the source of a new pentacyclic spiroindolinone alkaloid, citrinadin A (140 ) ([Fig. 6 ]), that displayed modest cytotoxicity against L1210 and KB cell lines (with IC50 values of 9.9 and 16.0 µM, respectively) [66 ], while the same fungus also yielded a new congener, citrinadin B (141 ), with modest cytotoxicity against L1210 cells (with an IC50 value of 20.8 µM) [67 ]. The absolute stereochemistry of citrinadins A and B was elucidated on the basis of ECD and vibrational circular dichroism (VCD) data. iso -α -Cyclopiazonic acid (142 ), isolated from Aspergillus flavus C-F-3 (green alga Enteromorpha tubulosa , Putian Pinghai, China), was modestly cytotoxic to several human tumor cell lines (HL-60, MOLT-4, A-549, and BEL-7402 cell lines) [68 ]. Two new terpeptin analogues, designated as JBIR-81 (143 ) and JBIR-82 (144 ), were obtained from an Aspergillus sp. SpD081030G1f1 (isolated from the brown alga Sargassum sp., collected from the sea shore of Ishigaki Island, Okinawa Prefecture, Japan). Both metabolites were strong radical scavengers due to theie protective effect against L-glutamate toxicity (with EC50 values of 0.7 and 1.5 µM) [69 ]. Two new indoloditerpene derivatives, asporyzins A (145 ) and B (146 ), and one new congener, asporyzin C (147 ), were obtained from the endophytic fungus Aspergillus oryzae cf-2, which was isolated from the marine red alga Heterosiphonia japonica (Yantai, China). To determine the chemical defensive function of this endophytic fungus for the host alga, all the isolates were evaluated for insecticidal and antimicrobial activities. Asporyzins A (145 ) and B (146 ) showed insecticidal activity against brine shrimp (Artemia salina ), and asporyzin C (147 ) possessed potent activity against E. coli . These preliminary results implied that endophytic A. oryzae plays an important role in the defense against marine herbivores and bacteria from the host alga H. japonica [70 ]. Cytoglobosins A–G (148 –154 ), seven new cytochalasan derivatives, were isolated and identified from the culture of Chaetomium globosum QEN-14, an endophytic fungus derived from the marine green alga Ulva pertusa (Qingdao coastline, China). Cytoglobosins C (150 ) and D (151 ) displayed cytotoxic activity against the A-549 tumor cell line (with IC50 values of 2.26 and 2.55 µM, respectively) [71 ]. Apart from the quinazoline derivatives (133 –136 ), the fungus Aspergillus carneus KMM 4638 isolated from a brown alga also produced three prenylated indole alkaloids, carneamides A–C (155 –157 ) [62 ]. A new indole alkaloid, 9ξ -O -2(2,3-dimethylbut-3-enyl)brevianamide Q (158 ), was obtained from the culture of Aspergillus versicolor pt20, an endophytic fungus isolated from the marine brown alga Sargassum thunbergii (Pingtan Island, China) [72 ]. The endophytic Coniothyrium cereale from the green alga Enteromorpha sp. produced the isoindole pseudoalkaloid conioimide (159 ) with selective inhibition of human leukocyte elastase [30 ].
Cultivation of the fungal strain Eurotium cristatum EN-220 [36 ] led to the isolation of four new indole alkaloids, cristatumins A–D (160 –163 ) ([Fig. 6 ]), of which cristatumin A (160 ) was active against E. coli with an MIC value of 188.8 µM, while cristatumin B (161 ) was moderately toxic to brine shrimp with an LD50 value of 155.9 µM [73 ]. Aspeverin (164 ), a novel carbamate- and cyano-containing alkaloid isolated from an algicolous Aspergillus versicolor dl-29 (green alga Codium fragile , Dalian, China), was a moderate growth inhibitor of the phytoplankton Heterosima akashiwo (with EC50 values of 16.7 and 9.0 µM for 24 and 96 h, respectively) [74 ]. Further work on the remaining fractions of the fungus Paecilomyces variotii EN-291 that produced oxepine-containing diketopiperazine-type alkaloids (137 –139 ) [64 ], [65 ] resulted in the isolation of two new prenylated indole alkaloids, dihydrocarneamide A (165 ) and carneamide D (166 ). This is the first report of these alkaloids from a genus other than Penicillium or Aspergillus [75 ]. Two new indole diterpenoids, 19-hydroxypenitrem A (167 ) and 19-hydroxypenitrem E (168 ), were isolated and identified from the culture of Aspergillus nidulans EN-330, an endophytic fungus obtained from the marine red alga Polysiphonia scopulorum var. villum (Yantai coastline, China). Both compounds exhibited inhibitory activity against brine shrimp (with LD50 values of 3.2 and 4.6 µM) and the chlorinated 19-hydroxypenitrem A (167 ) also showed antimicrobial activity against several human (E. coli and S. aureus ) and aqua pathogens (Edwardsiella tarda and Vibrio anguillarum ), with MIC values ranging from 24.6 to 49.2 µM [76 ].
Peptides: A Fusarium sp. CNL-619, which was isolated from the green alga Avrainvillea sp. (Bovoni Cay, United States Virgin Islands), produced N -methylsansalvamide (169 ), a new cyclic depsipeptide having weak in vitro cytotoxicity in the NCI human tumor cell line screen with an GI50 value of 8.3 µM [77 ]. Investigations of an unidentified fungus isolated from the red alga Ceradictyon spongiosum (Seragaki Beach, Okinawa) resulted in the isolation of two linear dodecapeptides, dictyonamides A (170 ) and B (171 ). The characteristic features of 170 and 171 are the presence of several N -methylamino acids and an anthranilic acid (Abz) at the C-terminus. LC-ESIMS and chiral HPLC analyses of the acid hydrolysate of 170 using Marfeyʼs procedure determined the absolute configuration of each amino acid residue. Dictyonamide A (170 ) inhibited cyclin-dependent kinase 4 (with an IC50 value of 13.0 µM), while dictyonamide B was inactive (IC50 value > 30 µM) [78 ].
Cultured Fusarium chlamydosporum OUPS-N124, isolated from the marine red alga Carpopeltis affinis (Toyooka city, Japan), was the source of two new sulfur-containing diketopiperazine derivatives, fusaperazines A (172 ) and B (174 ) ([Fig. 6 ]) [79 ], and two known compounds, (173 ) and (175 ), which had been originally isolated from the culture of the fungus Tolypocladium sp. [80 ]. JM47 (176 ), a cyclic tetrapeptide, was isolated from a marine Fusarium species (MOBCOF-1) isolated from the green alga Codium fragile subsp. Atlanticum (collected off the east coast of Scotland) and the structure was determined to be cyclo(Ala-Ala-Aoh-Pro), where Aoh is (2S ,9S )-2-amino-8-oxo-9-hydroxydecanoic acid [81 ]. Golmaenone (177 ), a diketopiperazine alkaloid, was obtained from an Aspergillus species (# MFA 212) isolated from a red alga Lomentaria catenata (Golmae Village, Ulsan City, Korea) with significant radical scavenging (with an IC50 value of 20 µM) and UV-A protecting properties (with an ED50 value of 90 µM) [82 ]. The marine-derived fungus Gliocladium sp., obtained from the alga Durvillaea antarctica , produced gliotide (178 ), a new cyclodepsipeptide containing several rare D-amino acids [15 ], and a marine-derived fungal strain, identified as Penicillium sp. CNL-338 (isolated from the red alga Laurencia sp. that was collected in the Bahamas islands), yielded a novel lumazine peptide, penilumamide (179 ) [83 ]. Application of OSMAC (one strain-many compounds) methodology to Asteromyces cruciatus 763, isolated from an unidentified decaying green alga (La Jolla shore, San Diego), resulted in the isolation of the pentapeptide lajollamide A (180 ) and the absolute configuration was solved by total synthesis [84 ]. The OSMAC approach was based on cultures of the fungus in media derived from the basic components of the Czapek-Dox broth, with glucose as the carbon source, which was either supplemented with cofactors or contained solely the amino acids Arg, Asn, and Glu as a nitrogen source instead of NaNO3 to afford a good variety of known metabolites and previously unknown compound 180 .
Miscellaneous nitrogenated derivatives: Two new triazoles, chrysotriazoles A (181 ) and B (182 ) ([Fig. 6 ]), were isolated and identified from the culture of Penicillium chrysogenum EN-118, an endophytic fungus obtained from the marine brown alga Sargassum pallidium (Fujian Province, China). The structure of chrysotriazole A (181 ) was confirmed by X-ray crystallographic analysis of its p -bromobenzoate derivative [85 ].
Concluding Remarks
Marine-derived fungi including those derived from marine algae, which have emerged as a new frontier for finding novel pharmaceutical candidates, continue to be a rich source of structurally unique and biologically active natural products. [Fig. 7 ] summarizes new compounds isolated from marine-sourced fungi and from the endophytic fungi derived from marine algae. Analyzing the data presented, we can infer that the rate at which these fungal metabolites have been discovered within the past 10 years has increased sharply. This increase is largely due to improvements in the isolation/purification techniques, structural analyses, and biological activity evaluation [86 ]. The search for new metabolites from algal-derived endophytic fungi has developed quite recently. There are approximately 75 papers dealing with chemical investigations of endophytic fungi from marine alga, more than 50 % of which appeared in the literature after the year 2008.
Fig. 7 Annual output of algal-associated fungal metabolites from 1990 to mid-2015.
In this review, we summarized the new findings regarding the chemistry and bioactivity of natural products found in marine algal-derived endophytic fungi during the past two decades. These include 182 naturally occurring natural products, and most of them showed a variety of bioactivities. It is noteworthy that Aspergillus, Chaetomium , and Penicillium are predominant genera as producers of these metabolites ([Fig. 8 a ]). They constitute 41.7 % of the compounds reported, and if three other prolific genera, Curvularia, Geniculosporium , and Drechslera , are taken into account, they include nearly 59.3 % of all of the metabolites. Around 35.7 % of the compounds are scattered across another 20 genera, while 5.0 % of the metabolites are from unidentified fungi. As summarized in [Fig. 8 b ], 25.3 %, 39.6 %, and 28.0 % of the 182 compounds come from green, red, and brown algae, respectively. It appears that the red algal genera are better sources of endophytic fungi than others. However, more examples and investigations are needed to support this deduction and to explain this phenomenon. Related to the source of endophytic fungi, it is clear that the macroalgal phylum, such as the green algae of the genera Enteromorpha, Ulva , and Codium , the brown algae of the genus Sargassum , and the red algal genera Laurencia, Polysiphonia , and Grateloupia are the most representative sources of endophytes. The majority of these metabolites not only have intriguing structures but also possess a variety of biological activities including cytotoxic, antimicrobial, enzyme inhibitory, and radical scavenging effects ([Fig. 8 c ]), as well as potential ecologically relevant functions, such as antifeedant, insecticidal, antiprotozoal, and herbicidal activity. An extraordinarily high proportion (54.9 %) of the isolated metabolites showed a wide range of biological activities, while the inactive metabolites discovered in previous studies were probably due to bias in the screening experiments and limitations in analytical technology, and further evaluation of these compounds with a more wide spectrum of bio-screening systems are recommended, which might leading to the discovery of their interesting bioactivities.
Fig. 8 a Fungal source categories of the reported metabolites. b Algal source classification of the endophytic fungi. c Bioactivity categories of the reported metabolites.
Among the 182 bioactive components presented in this review, some compounds intrigue the natural product researchers because of their unusual structures, such as the diterpene phomactin H (100 ) with a novel oxepane moiety [45 ], the novel isocoumarin (123 ) with an unusual seven-membered ring [56 ], and varioxepine A (137 ) with a condensed 3,6,8-trioxabicyclo[3.2.1]octane unit [64 ]. Most importantly, some of these compounds showed fascinating bioactivities comparable to those of modern pharmacological products, which suggests that they might be potential substitutes of traditional drugs. These include the antitumor agents sporiolides A (6 ) and B (7 ), 4-ketoclonostachydiol (15 ), and cytoglobosins C (150 ) and D (151 ). Sporiolides A (6 ) and B (7 ) from Cladosporium sp. exhibited potent cytotoxicity against murine lymphoma L1210 cells, with IC50 values of 0.37 and 3.1 µM, respectively, while cytoglobosins C (150 ) and D (151 ) from Chaetomium globosum QEN-14 displayed cytotoxic activity against the A-549 tumor cell line, with IC50 values of 2.26 and 2.55 µM, respectively. Antiplasmodial agents such as chaetoxanthones B (32 ) and C (33 ) from Chaetomium sp. displayed selective activity against the protozoan P. falciparum and T. cruzi , with IC50 values of 1.4 and 3.8 µM, respectively. Antienzyme agents such as the dimeric xanthone derivatives monodictyochrome A (28 ) and B (29 ) from Monodictys putredinis 195 15 I are inhibitors of cytochrome P450 1 A, with IC50 values of 5.3 and 7.5 µM, respectively. A butyrolactone (58 ) from Aspergillus terreus was considered a remarkable inhibitor of the enzyme β -glucuronidase, with an IC50 value of 6.2 µM, which was almost eight times stronger than that of the positive control glucosaccharo-(1,4)-lactone. These impressive activities make many of these compounds suitable candidates for drug discovery programs and might trigger synthesis studies in future research.
Although many metabolites of fungal endophytes displayed fascinating bioactivities, some of them were inactive or showed weak activities in the current reports. This was probably due to the bias in the screening programs. Further biological evaluation in other screening systems may uncover their specific biological activities. In addition, more sensitive and effective mass screening models in searching for active metabolites are strongly suggested. For example, computerized virtual screening, which has shown great promise in drug discovery, may play an important role in exploring lead compounds from natural products [87 ].
In conclusion, an ever-increasing number of compounds are being reported from algal-derived endophytic fungi. The endophytic fungi from marine algae are promising subjects for extensive investigations to find novel natural products, which make them a potentially rich and innovative source for new drug candidates or drug leads. As for the future of the research on the marine natural products of the algal-derived endophytes, the following aspects should be considered: (1) Although numerous secondary metabolites from algal-derived endophytic fungi with various biological activities and ecological functions were studied to some degree, little is known regarding the chemical defensive function of the endophytic fungi for their host algae. A deeper insight into mutualistic symbiosis involving the metabolites of the endophytic fungi and their host algae is therefore a great, interesting subject for future study, which would probably result in the isolation of unusual or rarely studied fungi that could produce structurally interesting and biologically active molecules with potential use in medicinal and agricultural applications; (2) The elucidation of fungal secondary metabolites for the authentic functions in their host algae habitats and the identification of the physiological and ecological conditions that have led to the activation of secondary metabolism gene clusters might be useful to understand the interactions between the endophytes and their host algae; and (3) Optimum fermentation conditions are necessary to adapt the special physiology and genetic background of algal endophytes and to activate their “silent” gene clusters to explore more “silent” secondary metabolites that could not be produced under normal laboratory culture conditions.
