Understanding the possible influence of Pumilio RNA binding proteins on terpenoid indole alkaloid biosynthesis in Catharanthus roseus.

Catharanthus roseus is a clinically significant medicinal plant; the sole source of chemotherapy agents, vincristine and vinblastine (specialized metabolites, terpenoid indole alkaloids/TIAs). Owing to large clinical demand and low bioavailability, several studies have focused on biosynthesis and regulation of TIA biosynthesis in C. roseus. However, transcription factor mediated regulation has been a major research focus, and the impact of post-transcriptional regulation remains under-explored. RNA binding proteins (RBPs) are an emerging class of post-transcriptional regulators having a profound influence on transcript stability. Pumilio (Pum) RBPs are evolutionarily conserved post-transcriptional regulators, involved in RNA degradation across eukaryotes. However, their potential influence on TIA biosynthesis has not been studied till date in any medicinal plants including C. roseus. Thus, the present study aimed at identification and computational characterization of Pum in C. roseus, followed by expression and functional analyses. The genome-wide identification and characterization revealed twelve CrPum isoforms. The effect of CrPum2, 3, and 5 knockdown on TIA biosynthesis (specifically vindoline and catharanthine) was analyzed via high performance liquid chromatography. CrPum5 knockdown was associated with increased TIA levels and upregulation of key TIA pathway genes. Thus, the present study is the first to report the potential influence of Pum on TIA biosynthesis in C. roseus. Further studies to elucidate the mechanism of Pum activity could provide new insights into the molecular regulation of TIA biosynthesis. A holistic understanding of regulatory mechanisms could benefit the metabolic engineering programs aimed at higher productivity of plant specialized metabolites. Supplementary Information: The online version contains supplementary material available at 10.1007/s12298-022-01193-5.

Expression analysis of Cell wall invertase under abiotic stress conditions influencing specialized metabolism in Catharanthus roseus.

Catharanthus roseus is a commercial source for anti-cancer terpenoid indole alkaloids (TIAs: vincristine and vinblastine). Inherent levels of these TIAs are very low, hence research studies need to focus on enhancing their levels in planta. Since primary metabolism provides precursors for specialized-metabolism, elevating the former can achieve higher amounts of the latter. Cell Wall Invertase (CWIN), a key enzyme in sucrose-metabolism catalyses the breakdown of sucrose into glucose and fructose, which serve as carbon-skeleton for specialized-metabolites. Understanding CWIN regulation could unravel metabolic-engineering approaches towards enhancing the levels of TIAs in planta. Our study is the first to characterize CWIN at gene-expression level in the medicinal plant, C. roseus. The CWINs and their inter-relationship with sucrose and TIA metabolism was studied at gene and metabolite levels. It was found that sucrose-supplementation to C. roseus leaves significantly elevated the monomeric TIAs (vindoline, catharanthine) and their corresponding genes. This was further confirmed in cross-species, wherein Nicotiana benthamiana leaves transiently-overexpressing CrCWIN2 showed significant upregulation of specialized-metabolism genes: NbPAL2, Nb4CL, NbCHS, NbF3H, NbANS, NbHCT and NbG10H. The specialized metabolites- cinnamic acid, coumarin, and fisetin were significantly upregulated. Thus, the present study provides a valuable insight into metabolic-engineering approaches towards augmenting the levels of therapeutic TIAs.

Effect of Melatonin on the stability and expression of reference genes in Catharanthus roseus.

The role of Melatonin in influencing diverse genes in plants has gained momentum in recent years and many reports have employed qRT-PCR for their quantification. Relative quantification of gene expression relies on accurate normalization of qRT-PCR data against a stably-expressing internal reference-gene. Although researchers have been using commonly available reference-genes to assess Melatonin-induced gene expression, but to-date, there have been no attempts to validate the reference-gene stability under Melatonin-supplementation in planta. In this study, we performed stability assessment of common reference-genes under Melatonin-supplementation and abiotic stress in leaves and seedlings of Catharanthus roseus using geNorm, NormFinder, BestKeeper, ΔCt and RefFinder algorithms. Nine candidate reference-genes were tested for stability in C. roseus (FBOX, CACS, TIP, RSP9, EXP, EXPR, SAND, F17M5, ACT) and our study inferred that while EXP and EXPR were the most-stable, F17M5 was the lowest-stable gene in the leaf-fed samples. Among seedlings of C. roseus, F17M5 and TIP were the most, while ACT was the least-stable gene. The suitability of selected stable reference-gene pairs was demonstrated by assessing the transcript levels of the Melatonin-biosynthesis gene SNAT under same conditions. Our study is the first to comprehensively analyze the stability of commonly-used reference-genes under Melatonin-induced conditions in C. roseus.