Journal of Microbiology

Journal Article

Functional analysis of Mpk1-mediated cell wall integrity signaling pathway in the thermotolerant methylotrophic yeast Hansenula polymorpha: Hyunah Kim , Eun Jung Thak , Ji Yoon Yeon , Min Jeong Sohn , Jin Ho Choo , Jeong-Yoon Kim , Hyun Ah Kang; J. Microbiol. 2018;56(1):72-82. Published online January 4, 2018; DOI: https://doi.org/10.1007/s12275-018-7508-6

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Understanding the characteristics and regulation mechanisms of cell wall integrity (CWI) in yeast is important not only for basic research but also in biotechnological applications. We found significantly different CWIs in two representative strains of the thermotolerant methylotrophic yeast Hansenula polymorpha. Compared to the A16 strain (classified as Ogataea polymorpha), the DL1-L strain (classified as Ogataea parapolymorpha) has a thinner cell wall that was found to be more fragile following long-term cultivation and more sensitive to zymolyase. To gain a deeper insight into this difference, we compared the characteristics of the Mpk1pmediated CWI signaling pathway in the two strains. While a DL1-L mutant deficient in Mpk1p (mpk1Δ) showed severe growth retardation at both normal and high growth temperatures and in the presence of cell-wall disrupting agents, the A16 mpk1Δ mutant displayed only a mild defect in cell growth. Sorbitol effect on rescuing growth retardation was different in the two mpk1Δ strains, which could partly be ascribed to subtle differences in the activation of HOG pathway. Among the cell wall disruptors evaluated, only caffeine clearly increased phosphorylation of Mpk1p in DL1-L, but not in A16. A transcriptome analysis of the DL1-L strain revealed that caffeine significantly increased the expression of a subset of cell-wall related genes in an Mpk1p-dependent manner, but not the expected Rlm1-target genes. Taken together, our data support an essential role for Mpk1p in maintaining CWI in H. polymorpha, although the requirement for Mpk1p and its regulation under diverse stress conditions varies depending on the strain background.

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Secretion of Truncated Recombinant Rabies Virus Glycoprotein with Preserved Antigenic Properties Using a Co-Expression System in Hansenula polymorpha: Weidong Qian , Frank Aguilar , Ting Wang , Bingsheng Qiu; J. Microbiol. 2013;51(2):234-240. Published online April 27, 2013; DOI: https://doi.org/10.1007/s12275-013-2337-0

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Abstract: Rabies virus infection remains a serious public health threat in the developing world, where cost-concerns make widescale public health interventions impractical. The development of novel and inexpensive ELISA diagnostic antigens is critical in early detection and prevention of complications. The transmembrane glycoprotein (G) of rabies virus (RV) contains an external domain capable of inducing the synthesis of anti-rabies, virus-neutralizing antibodies, in infected or immunized hosts. In our study, the external G domain was synthesized and fused in-frame with a polyhistidine-tag coding sequence present in the expression plasmid. Soluble truncated recombinant G was secreted in Hansenula polymorpha (H. polymorpha) using H. polymorpha-derived calnexin (HpCNE1) overproduction and found to be correctly N-glycosylated. The truncated recombinant G was purified from cell culture supernatant by Ni-agarose affinity chromatography and when compared with the full-length glycoprotein, found to be similarly immunogenic in vaccinated rabbits. These results subsequently led us to explore the potential of truncated recombinant G as a diagnostic antigen in ELISA. Our results show that the truncated recombinant G can detect antibodies directed to both whole virion and native glycoprotein. More sophisticated applications of truncated recombinant G would profit from the correctly N-glycosylated and soluble monomer.

Remodeling of the Glycosylation Pathway in the Methylotrophic Yeast Hansenula polymorpha to Produce Human Hybrid-Type N-Glycans: Seon Ah Cheon , Hyunah Kim , Doo-Byoung Oh , Ohsuk Kwon , Hyun Ah Kang; J. Microbiol. 2012;50(2):341-348. Published online April 27, 2012; DOI: https://doi.org/10.1007/s12275-012-2097-2

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35 Scopus

Abstract: As a step forward to achieve the generation of human complex- type N-glycans in the methylotrophic yeast Hansenula polymorpha, we here report the modification of the yeast glycosylation pathway by heterologous expression of the human gene encoding β-1,2-N-acetylglucosaminyltransferase I (GnTI). For the optimal expression of human GnTI in the yeast Golgi compartment, the catalytic domain of the GnTI was fused to various N-terminal leader sequences derived from the yeast type II membrane proteins. The vectors containing GnTI fusion constructs were introduced into the H. polymorpha och1Δ single and och1Δalg3Δ double mutant strains expressing the ER-targeted Aspergillus saitoi α-1,2 mannosidase, respectively. Both of the glycoengineered Hpoch1Δ and Hpoch1ΔHpalg3Δ strains were shown to produce successfully the hybrid-type glycans with a monoantennary N-acetylglucosamine (GlcNAc1Man5GlcNAc2 and GlcNAc1Man3GlcNAc2, respectively) by N-glycan profile analysis of cell wall proteins. Furthermore, by comparative analysis of byproduct formation and the glycosylation site occupancy, we propose that the Hpoch1Δ strain would be more suitable than the Hpoch1ΔHpalg3Δ strain as a host for the production of recombinant proteins with humanized glycans.

NOTE] Functional Analysis of a Hansenula polymorpha MNN2-2 Homologue Encoding a Putative UDP-N-acetylglucosamine Transporter Localized in the Endoplasmic Reticulum: Jeong-Nam Park , Jinho Choo , Hyun Ah Kang; J. Microbiol. 2011;49(6):1012-1017. Published online December 28, 2011; DOI: https://doi.org/10.1007/s12275-011-1520-4

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Abstract: The Kluyveromyces lactis UDP-GlcNAc transporter (KlMnn2-2p) is responsible for the biosynthesis of N-glycans containing N-acetylglucosamine. A putative gene of Hansenula polymorpha encoding a KlMnn2-2p homologue, HpMNN2-2, was identified and investigated for its function. The deletion mutant strain of HpMNN2-2 (Hpmnn2-2Δ) showed increased sensitivity to geneticin, hygromycin B, and tunicamycin. However, the Hpmnn2-2Δ strain exhibited increased resistance to Calcofluor white, an inhibitor of chitin biosynthesis, along with a reduced chitin content. The localization of HpMnn2-2p at the endoplasmic reticulum-enriched membrane, different from the Golgi localization of a K. lactis homologue, further supports the involvement of HpMnn2-2p in cell wall chitin biosynthesis.

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