Novel pathological variants of NHP2 affect N-terminal domain flexibility, protein stability, H/ACA Ribonucleoprotein (RNP) complex formation and telomerase activity

Author:

Maliński Bartosz12,Vertemara Jacopo3,Faustini Elena12,Ladenvall Claes45,Norberg Anna6,Zhang Yuming12,von Castelmur Eleonore78,Baliakas Panagiotis45,Tisi Renata3,Cammenga Jörg129,Lottersberger Francisca12ORCID

Affiliation:

1. Department of Biomedical and Clinical Sciences , Faculty of Medicine and Health Sciences, , Linköping 58185 , Sweden

2. Linköping University , Faculty of Medicine and Health Sciences, , Linköping 58185 , Sweden

3. Dipartimento di Biotecnologie e Bioscienze, Università di Milano-Bicocca , Milan 20126 , Italy

4. Department of Immunology , Genetics and Pathology, , Uppsala 90185 , Sweden

5. Uppsala University , Genetics and Pathology, , Uppsala 90185 , Sweden

6. Klinisk genetik, Norrlands Universitetssjukhus , Umeå 75185 , Sweden

7. Department of Physics , Chemistry and Biology, , Linköping 58183 , Sweden

8. Linköping University , Chemistry and Biology, , Linköping 58183 , Sweden

9. Department of Laboratory Medicine, Lund University , Lund 22184 , Sweden

Abstract

Abstract Telomere biology disorders (TBDs) are characterized by short telomeres, premature aging, bone marrow failure and cancer predisposition. Germline mutations in NHP2, encoding for one component of the telomerase cofactor H/ACA RNA binding complex together with Dyskerin, NOP10 and GAR1, have been previously reported in rare cases of TBDs. Here, we report two novel NHP2 variants (NHP2-A39T and NHP2-T44M) identified in a compound heterozygous patient affected by premature aging, bone marrow failure/myelodysplastic syndrome and gastric cancer. Although still able to support cell viability, both variants reduce the levels of hTR, the telomerase RNA component, and telomerase activity, expanding the panel of NHP2 pathological variants. Furthermore, both variants fail to be incorporated in the H/ACA RNA binding complex when in competition with wild-type endogenous NHP2, and the lack of incorporation causes their drastic proteasomal degradation. By RoseTTAFold prediction followed by molecular dynamics simulations, we reveal a dramatic distortion of residues 33–41, which normally position on top of the NHP2 core, as the main defect of NHP2-A39T, and high flexibility and the misplacement of the N-terminal region (residues 1–24) in NHP2-T44M and, to a lower degree, in NHP2-A39T. Because deletion of amino acids 2–24 causes a reduction in NHP2 levels only in the presence of wild-type NHP2, while deletion of amino acids 2–38 completely disrupts NHP2 stability, we propose that the two variants are mis-incorporated into the H/ACA binding complex due to the altered dynamics of the first 23 amino acids and/or the distortion of the residues 25–41 loop.

Funder

Cancerfonden

LiU Cancer Research

Lion’s Cancer Research Foundation

University of Milano-Bicocca

Wallenberg Molecular Medicine

Knut and Alice Wallenberg Foundation

Publisher

Oxford University Press (OUP)

Subject

Genetics (clinical),Genetics,Molecular Biology,General Medicine

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