TY - JOUR
T1 - The Ig heavy chain protein but not its message controls early B cell development
AU - Aslam, Muhammad Assad
AU - Alemdehy, Mir Farshid
AU - Hao, Bingtao
AU - Krijger, Peter H L
AU - Pritchard, Colin E J
AU - de Rink, Iris
AU - Muhaimin, Fitriari Izzatunnisa
AU - Nurzijah, Ika
AU - van Baalen, Martijn
AU - Kerkhoven, Ron M
AU - van den Berk, Paul C M
AU - Skok, Jane A
AU - Jacobs, Heinz
N1 - Funding Information:
ACKNOWLEDGMENTS. The authors would like to thank the NKI genomics core facility for library preparations and sequencing, the NKI Flow Cytometry facility for assistance, and the caretakers of the NKI Animal Laboratory facility for assistance and excellent animal care. We gratefully acknowledge Ramen Bin Ali from the Mouse Clinic for Cancer and Aging Transgenic Facility for his help in generating IghTer5HΔTM knock-in mice and Abi Pataskar for bioinformatic discussions. We would like to thank Jonathan Yewdell for pointing out that read-through translation is effective in immune cells. This project was made possible by a generous TOP grant from the Netherlands Organisation for Scientific Research (NWO) ZonMW (91213018) to H.J. The funders had no role in study design, data collection and interpretation, or the decision to submit the work for publication.
Publisher Copyright:
© 2020 National Academy of Sciences. All rights reserved.
Copyright:
Copyright 2020 Elsevier B.V., All rights reserved.
PY - 2020/12/8
Y1 - 2020/12/8
N2 - Development of progenitor B cells (ProB cells) into precursor B cells (PreB cells) is dictated by immunoglobulin heavy chain checkpoint (IgHCC), where the IgHC encoded by a productively rearranged Igh allele assembles into a PreB cell receptor complex (PreBCR) to generate signals to initiate this transition and suppressing antigen receptor gene recombination, ensuring that only one productive Igh allele is expressed, a phenomenon known as Igh allelic exclusion. In contrast to a productively rearranged Igh allele, the Igh messenger RNA (mRNA) (IgHR) from a nonproductively rearranged Igh allele is degraded by nonsense-mediated decay (NMD). This fact prohibited firm conclusions regarding the contribution of stable IgHR to the molecular and developmental changes associated with the IgHCC. This point was addressed by generating the Igh
Ter5H∆TM
mouse model from Igh
Ter5H
mice having a premature termination codon at position +5 in leader exon of Igh
Ter5H
allele. This prohibited NMD, and the lack of a transmembrane region (∆TM) prevented the formation of any signaling-competent PreBCR complexes that may arise as a result of read-through translation across premature Ter5 stop codon. A highly sensitive sandwich Western blot revealed read-through translation of Igh
Ter5H
message, indicating that previous conclusions regarding a role of IgHR in establishing allelic exclusion requires further exploration. As determined by RNA sequencing (RNA-Seq), this low amount of IgHC sufficed to initiate PreB cell markers normally associated with PreBCR signaling. In contrast, the Igh
Ter5H∆TM
knock-in allele, which generated stable IgHR but no detectable IgHC, failed to induce PreB development. Our data indicate that the IgHCC is controlled at the level of IgHC and not IgHR expression.
AB - Development of progenitor B cells (ProB cells) into precursor B cells (PreB cells) is dictated by immunoglobulin heavy chain checkpoint (IgHCC), where the IgHC encoded by a productively rearranged Igh allele assembles into a PreB cell receptor complex (PreBCR) to generate signals to initiate this transition and suppressing antigen receptor gene recombination, ensuring that only one productive Igh allele is expressed, a phenomenon known as Igh allelic exclusion. In contrast to a productively rearranged Igh allele, the Igh messenger RNA (mRNA) (IgHR) from a nonproductively rearranged Igh allele is degraded by nonsense-mediated decay (NMD). This fact prohibited firm conclusions regarding the contribution of stable IgHR to the molecular and developmental changes associated with the IgHCC. This point was addressed by generating the Igh
Ter5H∆TM
mouse model from Igh
Ter5H
mice having a premature termination codon at position +5 in leader exon of Igh
Ter5H
allele. This prohibited NMD, and the lack of a transmembrane region (∆TM) prevented the formation of any signaling-competent PreBCR complexes that may arise as a result of read-through translation across premature Ter5 stop codon. A highly sensitive sandwich Western blot revealed read-through translation of Igh
Ter5H
message, indicating that previous conclusions regarding a role of IgHR in establishing allelic exclusion requires further exploration. As determined by RNA sequencing (RNA-Seq), this low amount of IgHC sufficed to initiate PreB cell markers normally associated with PreBCR signaling. In contrast, the Igh
Ter5H∆TM
knock-in allele, which generated stable IgHR but no detectable IgHC, failed to induce PreB development. Our data indicate that the IgHCC is controlled at the level of IgHC and not IgHR expression.
KW - Allelic exclusion
KW - Early B cell development
KW - Ig heavy chain checkpoint
KW - PreB cell antigen receptor
KW - Read-through translation
UR - http://www.scopus.com/inward/record.url?scp=85097584503&partnerID=8YFLogxK
U2 - 10.1073/pnas.2004810117
DO - 10.1073/pnas.2004810117
M3 - Article
C2 - 33229554
SN - 0027-8424
VL - 117
SP - 31343
EP - 31352
JO - Proceedings of the National Academy of Sciences of the United States of America
JF - Proceedings of the National Academy of Sciences of the United States of America
IS - 49
ER -