The Genus Chrysosporium: A Potential Producer of Natural Products

Chrysosporium, a genus of ascomycete fungi in the family Onygenaceae, has the ability to produce abundant new bioactive natural products, providing a structural foundation in drug development. This review includes the sources, distribution, biological activities and structural characteristics of the compounds isolated from Chrysosporium from 1984 to 2021. The results show that 66% of the compounds isolated from Chrysosporium are new natural products. More than half of the Chrysosporium-isolated compounds are from marine-derived Chrysosporium. The chemical structures of Chrysosporium-derived compounds have different skeletons, which are concentrated in alkaloids, polyketides, and lactones. Eighty percent of the natural products isolated from Chrysosporium have been found to have various biological activities, including cytotoxic, antibacterial, antifungal and enzyme-inhibitory activities. These results demonstrate the potential of Chrysosporium for producing new bioactive secondary metabolites, which can be used as the structural basis for developing new drugs.

α-Lipoic acid suppresses migration and invasion via downregulation of cell surface β1-integrin expression in bladder cancer cells

Our previous study showed α-lipoic acid (LA) downregulated cell surface β1-integrin expression of v-H-ras-transformed derivative of rat fibroblast with amelioration of their malignant phenotype. Here, we evaluated the ameliorating effect of LA on the malignant characters in H-ras-transformed bladder cancer cells. H-ras mutated bladder cancer line, T24 cells were incubated with LA to evaluate the inhibitory effect on proliferation, migration, invasion and β1-integrin expression. Fluorescence staining of F-actin and western blotting analyses of the related signaling pathways were also performed. LA inhibited the proliferation of T24 cells. Cell adhesion to collagen IV and fibronectin was strikingly inhibited by LA treatment accompanied by downregulation of cell surface but not whole cell β1-integrin expression. LA clearly inhibited cell migration and invasion of T24 cells, which were mimicked by extracellular signal-regulated kinase (ERK) and Akt pathway inhibition. Actually, LA significantly downregulated the phosphorylated ERK and Akt levels. Moreover, LA downregulated phosphorylated focal adhesion kinase level with disappearance of stress fiber formation. Finally, although LA induced the internalization of cell surface β1-integrin, disruption of the raft did not affect the action of LA. Taken together, LA is a promising agent to improve malignant character of bladder cancer cells through regulation of cellular β1-integrin localization.

Selective inhibition by apocynin of the proliferation and adhesion to fibronectin of v-H-ras-transformed 3Y1 cells

We determined the effects of apocynin, a representative inhibitor of NADPH oxidase, on the proliferative and adhesive properties of 3Y1 rat fibroblasts and the 3Y1 v-H-ras-transformed derivative, HR-3Y1-2. Apocynin inhibited the proliferation of HR-3Y1-2 but not 3Y1 cells at 10 µM and 100 µM. Apocynin also decreased the intracellular reactive oxygen species (ROS) level in HR-3Y1-2 but not 3Y1 cells. We also evaluated the effects of apocynin on cell adhesion to fibronectin and found decreased adhesion of HR-3Y1-2 cells to fibronectin-coated plates. Our results indicate that apocynin selectively down-regulated β1-integrin cell surface expression on the HR-3Y1-2 cells. It also inhibited the migration and invasion of these cells. These data suggest that reducing the production of NADPH oxidase-mediated ROS could be an effective means for ameliorating the abnormal growth, adhesion and motility of v-H-ras-transformed cells.

Alpha lipoic acid selectively inhibits proliferation and adhesion to fibronectin of v-H-ras-transformed 3Y1 cells

Here, we focused on the effects of racemic α-lipoic acid on proliferation and adhesion properties of 3Y1 rat fibroblasts and the v-H-ras-transformed derivative, HR-3Y1-2 cells. Racemic α-lipoic acid inhibited proliferation of HR-3Y1-2 but not 3Y1 cells at 0.3 and 1.0 mM. R-(+)-α-lipoic acid also inhibited proliferation of HR-3Y1-2 cells equivalent to that of racemic α-lipoic acid. In addition, racemic α-lipoic acid decreased intracellular reactive oxygen species levels in HR-3Y1 cells but not 3Y1 cells. Next, we evaluated the effects of racemic α-lipoic acid on cell adhesion to fibronectin. The results indicated that racemic α-lipoic acid decreased adhesive ability of HR-3Y1-2 cells to fibronectin-coated plates. As blocking antibody experiment revealed that β1-integrin plays a key role in cell adhesion in this experimental system, the effects of racemic α-lipoic acid on the expression of β1-integrin were examined. The results indicated that racemic α-lipoic acid selectively downregulated the expression of cell surface β1-integrin expression in HR-3Y1-2 cells. Intriguingly, exogenous hydrogen peroxide upregulated cell surface β1-integrin expression in 3Y1 cells. Taken together, these data suggest that reduction of intracellular reactive oxygen species levels by α-lipoic acid could be an effective means of ameliorating abnormal growth and adhesive properties in v-H-ras transformed cells.

Thioviridamide, a Novel Apoptosis Inducer in Transformed Cells from Streptomyces olivoviridis

In the course of screening for antitumor antibiotics using 3Y1 rat fibroblasts transformed with adenovirus oncogenes, a new active substance designated thioviridamide was isolated from the culture broth of an actinomycete. The producing organism was identified as Streptomyces olivoviridis on the basis of its culture characteristics and physiological properties. Thioviridamide showed cytotoxicity selectively against Ad12-3Y1 cells (IC50 = 3.9 ng/ml) and E1A-3Y1 cells (IC50 = 32 ng/ml), both of which contain the adenovirus E1A oncogene. Significant numbers of Ad12-3Y1 cells treated with thioviridamide contained condensed chromatin and fragmented nuclei, indicating that thioviridamide induced apoptosis.

Reversion of temperature-sensitive mutation by inhibition of proteasome-mediated degradation of mutated D123 protein

A temperature-sensitive cell-cycle mutant of the 3Y1 rat fibroblast cell line, 3Y1tsD123 has in the D123 gene coding region a point mutation which causes instability of the D123 protein. Temperature-sensitive G1 arrest of the mutant is caused by increased degradation of the D123 protein at restrictive temperature. In this study we found that the selective proteasome inhibitors lactacystin and MG132 inhibited degradation of the mutated D123 protein in cell lines overexpressing the mutated D123 protein, followed by accumulation of a modified form (increased molecular weight other than by ubiquitination) of the D123 protein. Although a temperature-resistant revertant of the mutant had no further mutation in the D123 gene coding region, the modification of the mutated D123 protein was inhibited and the mutated D123 protein was rendered stable. The modification was also inhibited in the hybrid cell lines between the revertant and the cell line overexpressing the mutated D123 protein. These facts imply that the mutated D123 protein receives unidentified modification before degradation in the proteasome, and that the revertant expresses a gene inhibiting this modification.

Extensive degradation of mutant-type D123 protein is responsible for temperature-sensitive proliferation inhibition in 3Y1tsD123 cells

A temperature-sensitive mutant of 3Y1, 3Y1tsD123, reversibly arrested in G1 phase of cell cycle at the restrictive temperature of 39.8 degrees C, shows a single amino acid exchange in the D123 protein. In this study, we found that the D123 protein level in 3Y1tsD123, which was 1/8 of that in 3Y1 compared at the permissive temperature of 33.9 degrees C, lowered to 1/4 after a shift to the restrictive temperature. During inhibition of protein synthesis with cycloheximide, the D123 protein level in 3Y1tsD123 decreased markedly depending on the incubation temperature, compared with that in 3Y1, indicating that the lowered levels of D123 protein in 3Y1tsD123 are due to its degradation. Unexpectedly, 2 stably temperature-resistant clones were isolated after transfection of SV-3Y1tsD123 (SV40-transformed 3Y1tsD123, which shows cell death instead of G1 arrest at the restrictive temperature) with the cDNA of the mutant-type (3Y1tsD123-derived) D123 protein. The D123 protein in both clones degraded extensively at both temperatures, suggesting that the overexpression of the mutant-type D123 protein exceeds its degradation. Both temperature-resistant clones contained higher levels of D123 protein at the restrictive temperature than did SV-3Y1tsD123 at the permissive temperature. We concluded that the lowered D123 protein level at the restrictive temperature induces the temperature-sensitive characteristics of 3Y1tsD123 and SV-3Y1tsD123.

Egr family member proteins are involved in the activation of the cathepsin L gene in v-src-transformed cells

Both the protein and mRNA levels of cathepsin L in SR-3Y1-2, v-src-transformed 3Y1 cell lines were higher than in 3Y1 cells. Results of CAT assays suggested that the v-src responsible region in the cathepsin L gene localizes to 300 bp in the 5'-upstream region and 60 bp in the first exon. DNaseI footprinting analyses showed that transcription factors bind to the region from 29bp to 55bp from the transcription start site. This region contains a CAAT-box and a 5'-GGCGGGGGCGG-3' sequence containing two repeat copies of consensus Sp-1 binding sites, overlapping a consensus Egr family binding site. DNA band shift assays showed that Sp-1 and NF-1 binding proteins bind to this region in 3Y1 cells while Egr family protein binds in SR-3Y1-2 cells. These results suggest that Egr family proteins are involved in the activation of the cathepsin L gene in SR-3Y1-2 cells.

Direct binding of C-terminal region of p130Cas to SH2 and SH3 domains of Src kinase

p130Cas is a major tyrosine-phosphorylated protein that tightly binds v-Crk in v-crk-transformed cells and v-Src in v-src-transformed cells. The "substrate domain" of p130Cas contains 15 possible Src homology (SH) 2-binding motifs, most of which conform to the binding motif for the Crk SH2 domain. Another region near its C terminus contains possible binding motifs for the Src SH2 domain and proline-rich sequences that are candidates for SH3-binding sites. Using GST fusion proteins, we revealed that both SH2 and SH3 domains of Src bind p130Cas, whereas v-Crk binds p130Cas through its SH2 domain. We located the binding site of p130Cas for the Src SH3 domain at the sequence RPLPSPP in the region near its C terminus. Mutations within this sequence or at Tyr762 of p130Cas caused a significant reduction in the association of p130Cas with Src, and no association was detected when both of them were deleted. The kinase activity in v-Crk-transformed cells was also associated with p130Cas through this region. On the other hand, the deletion of the substrate domain abolished the binding with v-Crk. The association through the C-terminal region of p130Cas with Src kinase may facilitate effective hyperphosphorylation of tyrosine residues in the substrate domain of p130Cas, resulting in the binding of SH2-containing molecules to p130Cas.

Rat genomic structure of amidophosphoribosyltransferase, cDNA sequence of aminoimidazole ribonucleotide carboxylase, and cell cycle-dependent expression of these two physically linked genes

Genomic structure of rat amidophosphoribosyltransferase (ATase; EC 2.4.2.14), which catalyzes the first committed step in de novo purine nucleotide synthesis, was determined by polymerase chain reaction (PCR)-based methods. There are 11 exons and all exon-intron boundaries were conserved among rat, human, and chicken ATase genes. A rat aminoimidazole ribonucleotide carboxylase (AIRC) cDNA encoding a bifunctional enzyme of AIRC (EC 4.1.1.21) at step 6 and SAICAR synthetase (EC 6.3.2.6) at step 7 in de novo purine nucleotide synthesis was cloned and sequenced. The size of the cloned rat AIRC cDNA was 1329 bp, and amino acid identity with human and chicken AIRC was 96 and 85%, respectively. The intergenic sequence using a phage clone and the PCR product disclosed that ATase and AIRC genes are physically linked with the 736 bp sequence between the translation start sites, and the determination of the transcriptional start sites by the primer extension assay for these genes disclosed that distance between the two major transcriptional start sites is 585 bp. The amount of mRNAs of both genes showed approx. 5-6-fold increase in G1/S phase of the cell cycle over those in G0 phase in synchronized rat 3Y1 fibroblasts.

Metastatic potential of transformed rat 3Y1 cell lines is inversely correlated with lysosomal-type sialidase activity

We have investigated sialidase activities in transformed rat 3Y1 cells of different metastatic potential. Only lysosome-type sialidase was apparent in the particulate fractions of 3Y1 cells and their transformants. As compared with control 3Y1 cells, src-transformed cells exhibited decreased sialidase activity, and v-fos transfer to these latter induced even more severe decrease in the sialidase activity with acquisition of high lung metastatic ability. Various lysosomal enzymes other than sialidase were hardly affected by the transformation. Sialic acid transfer to N-linked glycoproteins was slightly elevated in the transformants, but not in parallel with their metastatic potential.

Differential expression of vinculin between weakly and highly metastatic B16-melanoma cell lines

We previously reported on the altered expression of a third actin in mouse-B16 melanoma associated with malignant progression. While further investigating the relationship of cytoskeletal proteins to malignancy, we found that the expression of vinculin was higher in weakly metastatic B16-F1 cells than in highly metastatic B16-F10 cells. By Northern blot analysis, the mRNA expression of vinculin in B16-F1 was also shown to be higher than in B16-F10. Immunofluorescence staining showed a clear dotted distribution of vinculin in B16-F1, but only a weak and diffuse distribution in B16-F10. The dotted distribution tended to be larger in B16-F1 and when cultured on Matrigel and fibronectin than on laminin and type IV collagen. An alteration in the expression of vinculin was also observed in other cell systems. Vinculin was detected in both normal 3Y1 and in relatively weakly malignant transformed 3Y1 cell lines, while vinculin was either scarcely detected or not detected at all in more malignant cell lines. These results suggest that the suppression of vinculin is closely related to malignant progression in both the B16-melanoma and 3Y1 cell systems.

Suppression of murine leukemia virus-mediated 3Y1 cell fusion by expression of mouse MHC class I

Rat 3Y1 fibroblasts transformed by adenovirus type 12 or its E1A gene formed syncytia by cocultivation with Friend murine leukemia virus (MuLV)-producing cells. On the other hand, parental 3Y1 cells and those derivatives induced by other tumor viruses or chemical carcinogen showed no MuLV-mediated syncytium formation [N. Momozaki et al. (1990) Arch. Virol. 115: 123-126]. The expression of major histocompatibility complex (MHC) class I mRNA and antigens was significantly reduced in these Ad12- and E1A-transformed 3Y1 cells. In contrast, other tumor virus-and chemical carcinogen-transformed 3Y1 cells expressed MHC class I almost in normal levels as did parental 3Y1 cells. Furthermore, Ad12-transformed 3Y1 cells which started to express the transfected exogenous MHC class I gene, H-2Ld, showed no more MuLV-mediated 3Y1 cell fusion. These results indicate that the expression of MHC class I on the cell membrane is closely related to the inhibition of 3Y1 cell fusion by MuLV.

Confluent BALB/c 3T3 cells monolayer provides selective and efficient growth of neoplastic cells

In an attempt to further characterize non-irradiated contact-inhibited confluent monolayer of BALB/c 3T3 cells (= Contact-Sensitive Plates; CSP) as substrata for in vitro drug sensitivity testing, we compared the efficiency of colony formation with panels of cell lines on CSP with that on plastic dishes or in agar. Tumorigenicity in athymic nude mice was also examined. We found that: (1) HeLa cells, 2 esophageal cancer lines, rat 3Y1 fibroblasts transformed by either adenovirus type 12, mouse polyoma virus, Rous avian sarcoma virus, or plasmid DNA carrying v-Ha-ras oncogene all formed colonies on CSP and in agar and at the same time was tumorigenic. The efficiency of colony formation on CSP proved always to be higher than that in agar. (2) None of the 4 "normal" fibroplastic cell lines formed colonies on CSP or in agar and were tumorigenic. (3) Simian virus 40 and adenovirus E1A gene transformed rat 3Y1 fibroblasts formed colonies on CSP but not in agar, and were not tumorigenic. Therefore, CSP was found to provide selective and efficient growth of neoplastic cells when compared to other substrata and is also helpful in detecting incompletely transformed cells.

Augmented excretion of procathepsin L of a fos-transferred highly metastatic rat cell line

We previously reported that v-fos transfer to a src-transformed rat 3Y1 cell line (SR-3Y1-2) enhanced lung metastasis accompanied with an increase in invasiveness. When analyzing factors relating to the high invasiveness, with special reference to typical lysosomal proteases (cathepsins), involving degradation of stroma, we found that the excretion of procathepsin L was significantly larger in the fos-transferred highly metastatic cell line (fos-SR-3Y1-202) than that in the recipient cell lines. The cathepsin D-induced enzyme activity of the excreted procathepsin L in fos-SR-3Y1-202 was about 4 and 13 fold that of SR-3Y1-2 and 3Y1, respectively. The increase in the excretion of procathepsin L from fos-SR-3Y1-202 may play a role in the high invasiveness induced by transfer with the v-fos oncogene.

Selective syncytium formation by murine leukemia virus in rat 3Y1 fibroblasts transformed by adenovirus type 12 or its E1A gene

3Y1 rat fibroblasts transformed by adenovirus type 12 or by its E1A gene formed syncytia when cocultivated with the Friend as well as other ecotropic murine leukemia-virus-producing cells. In contrast, the parental 3Y1 cells and those transformed by other tumor viruses or by a chemical carcinogen exhibited no syncytium formation.

Enhancement of colony forming ability in the lung by transfer of the v-fos oncogene into a ras-transformed rat 3Y1 cell line

Transfer of the v-fos oncogene into a rat 3Y1 cell line transformed by v-H-ras, which is tumorigenic but non-metastatic, enhanced lung metastasis, depending on the amount of fos-related transcripts. Enhancement of the metastatic potential was associated with increases in tumor growth rate i.m. of inoculated cells but not the rate of in vitro cell growth, irrespective of the addition of tissue (e.g. lung) extract to the regular medium. These results suggest that the v-fos oncogene increased the malignancy by altering biological factors of the recipient cells responsible for cell growth and/or survival rate in vivo.

Increase in c-fos and c-myc mRNA levels in untransformed and SV40-transformed 3Y1 fibroblasts after addition of serum: its relationship to the control of initiation of S phase

When rat 3Y1 fibroblasts were exposed to serum after 7.5 h of S, G2, and M phases in the absence of serum, the c-fos and c-myc mRNA levels markedly increased. This marked increase was also observed when density-arrested cells were stimulated with fresh serum to initiate proliferation. Increase in the c-fos and c-myc mRNA levels was not observed in cells that had traversed 7.5 h in these phases in the presence of serum. Cells passing through S, G2, and M phases in the absence of serum delayed entry into the next S phase approximately 8 h compared to control cells incubated in the presence of serum. Also, when density-arrested cells were stimulated with serum for 5 h, then deprived of serum for 8 h, and then incubated in serum again, the c-fos and c-myc mRNA levels increased. In this last case, the total excess time of serum exposure required to enter S phase was only 2 h, indicating that cells had not returned to the initial density-arrested state during the serum deprivation period. The increase in c-fos and c-myc mRNA levels following addition of serum after incubation in the absence of serum was also observed in SV40-transformed 3Y1 cells. The entry of SV40-transformed cells into S phase was not markedly affected by the absence of serum. These results can be explained by assuming that there is a process leading to the initiation of S phase that is operating or accumulating continuously in all cell cycle phases. In 3Y1 cells the expression of the c-fos and c-myc genes is required at any cell cycle phase, and the increase in c-fos and c-myc mRNA levels in response to changes in serum concentration simply reflects the possible overexpression due to the delay of a hypothesized negative feedback regulation. In SV40-transformed 3Y1 cells, the process leading to the initiation of S phase operates normally in response to growth factors, and the SV40 large T antigen supplements or enhances the process in the absence of the growth factors.

Frequency of cell transformation by the small DNA tumor viruses: infection of proliferating cells and quiescent cells

Small DNA-containing tumor viruses (simian virus 40, mouse polyoma-virus, and adenoviruses) malignantly transform fibroblasts of the susceptible rodents. Fibroblasts can exist, in vitro and in vivo, in either of the two states: the proliferating state or the quiescent state. In the present study, we examined whether the state of fibroblasts at the time of exposure to these DNA viruses affects the frequency of transformation. Dense-focus formation in monolayer culture of rat 3Y1 fibroblasts was used to quantitate transformation. Results show that the frequency of transformation by simian virus 40 and mouse polyomavirus was reduced when cells were in the proliferating state at the time of virus inoculation as compared to cells in the quiescent state, whereas that by adenovirus type 12 was similar in the two cellular states. The reduction of the frequency of transformation in proliferating cells infected with simian virus 40 was also observed in BALB/c 3T3 mouse cells. Mechanisms underlying the difference between the two cellular states and the difference between the papovavirus and adenovirus in this aspect of transformation remain to be investigated.

Selective killing of transformed fibroblasts by combined treatment with cycloheximide and aphidicolin

The possibility of selective killing of transformed cells in a mixed population of untransformed and transformed cells was examined using a cell culture system of rat 3Y1 fibroblasts (parental 3Y1 cells, 3Y1 cells transformed with either SV40, polyoma virus, Rous avian sarcoma virus, E1A gene of adenovirus type 12, or H-v-ras oncogene). The principle of the selective killing is as follows. Under suboptimal culture conditions, untransformed cells are inhibited from progressing through G1 phase and retain viability, while transformed cells are not arrested. When DNA synthesis is inhibited for a long period, both types of cells in S phase die. Therefore, if we administer inhibitors of G1 progression and of DNA synthesis simultaneously to a cell population consisting of untransformed and transformed cells, most untransformed cells are arrested in G1 phase, retaining viability, while transformed cells leak from the G1 phase, cease DNA synthesis, and gradually die The present study shows that all types of transformants in stationary-phase cultures (consisting of cells mainly with a G1 DNA content) were killed to higher extents compared with untransformed cells, during incubation at lower cell densities with a combination of cycloheximide (G1 inhibitor) and aphidicolin (DNA-synthesis inhibitor). However, cycloheximide reduced the killing effect of aphidicolin by changing the irreversible DNA-synthesis inhibition to a reversible inhibition. The availability of G1 inhibitors that do not interfere with the irreversibility of inhibition of DNA synthesis is required for the treatment of cancer based on this idea.

The high sensitivity of cells transformed by E1A gene of adenovirus type 12 to diacylglycerol-mediated cell killing

Viability of rat 3Y1 fibroblasts transformed by adenovirus type 12 (Ad12) was markedly impaired by the administration of dilinoleoylglycerol (DLG) to the culture medium. To identify the gene(s) of Ad12 responsible for the high sensitivity to DLG, we established several transformed sublines of 3Y1 induced by the viral E1A gene or by the mutants of Ad12 which have mutations in the E1A region. All of the transformed sublines of 3Y1 expressing either the 12S or the 13S message from the E1A region were highly sensitive to the cytotoxicity of DLG. We propose that the high sensitivity of Ad12-transformed cells to the DLG mediated cytotoxicity is attributable to the common function of E1A-12S and E1A-13S mRNA products.

Influence of the deprivation of a single amino acid on cellular proliferation and survival in rat 3Y1 fibroblasts and their derivatives transformed by a wide variety of agents

We compared proliferation and survival of various syngeneic transformed cell lines under conditions of depletion of 15 amino acids in Dulbecco-Eagle's medium. We used a normal fibroblast line 3Y1 and 22 transformed sublines of 3Y1 which had been induced by one of seven transforming agents--simian virus 40, mouse polyomavirus, adenovirus type 12, E1A gene of adenovirus type 12, cDNA of Harvey murine sarcoma virus, Rous sarcoma virus, or N-methyl-N'-nitro-N-nitrosoguanidine. Unlike other untransformed cells examined (mouse BALB/c-3T3 line, mouse NIH-3T3 line, and primary Fischer rat embryo fibroblasts), 3Y1 ceased to proliferate and accumulated in a viable state with a G1-phase DNA content under 14 singular deprivations of amino acid. None of the transformed 3Y1 lines completely arrested in the G1 phase of the cell cycle and each showed different levels of survival, depending on each transforming agent. As for transformed 3Y1 cells induced by a given virus or a given transforming gene, any one of the three sublines shared the same trend with respect to proliferation and survival. Transformed derivatives induced by N-methyl-N'-nitro-N-nitrosoguanidine showed almost the same trend in proliferation, but the patterns of survival were not uniform. Our observations suggest that the unique responses of 3Y1 to amino acid depletion are differently modified by different transforming agents.