RebL1 is required for macronuclear structure stability and gametogenesis in Tetrahymena thermophila

Histone modification and nucleosome assembly play important roles in chromatin-related processes. Histone chaperones form different complexes and coordinate histone transportation and assembly. Various histone chaperone complexes have been identified in different organisms. The ciliate protozoa (ciliates) have various chromatin structures and different nuclear morphology. However, histone chaperone components and functions of different subunits remain unclear in ciliates. Tetrahymema thermophila contains a transcriptionally active macronucleus (MAC) and a transcriptionally inactive micronucleus (MIC) which exhibit multiple replication and various chromatin remodeling progresses during vegetative growth and sexual developmental stages. Here, we found histone chaperone RebL1 not only localized evenly in the transcriptionally active MAC but also dynamically changed in the MIC during vegetative growth and sexual developmental stages. REBL1 knockdown inhibited cellular proliferation. The macronuclear morphology became bigger in growing mutants. The abnormal macronuclear structure also occurred in the starvation stage. Furthermore, micronuclear meiosis was disturbed during sexual development, leading to a failure to generate new gametic nuclei. RebL1 potentially interacted with various factors involved in histone-modifying complexes and chromatin remodeling complexes in different developmental stages. REBL1 knockdown affected expression levels of the genes involved in chromatin organization and transcription. Taken together, RebL1 plays a vital role in maintaining macronuclear structure stability and gametogenesis in T. thermophila. Supplementary Information The online version contains supplementary material available at 10.1007/s42995-024-00219-z.

Ciliated protozoa (ciliates) have various chromatin structures and nuclear morphologies.Tetrahymena thermophila has nuclear dimorphism.The somatic macronucleus (MAC) is polyploid and transcriptionally active, while the germline micronucleus (MIC) is diploid and transcriptionally silent during vegetative growth (Orias et al. 2011).During growth, the MIC divides mitotically while the MAC divides amitotically (Orias et al. 2011).The MIC begins to replicate during the late anaphase of division when it is separated from the MAC and positioned near the surface of the MAC in the G2 phase (Cole and Sugai 2012;Woodard et al. 1972).During sexual reproduction, one of the meiotic products is selected and initiates mitosis to produce gametic nuclei.The zygotic nuclei form by the exchange and fusion of gametic nuclei.The zygotic nucleus performs two rounds of mitosis and the parental MACs degrade gradually.Finally, the paired cells form exconjugants, each with two MACs and one MIC.The exconjugant restarts proliferation in a nutrient-sufficient environment (Cole and Sugai 2012).The MAC and MIC contain different histones and histone variants.There are entirely different H1 molecules in the MAC and MIC (Allis et al. 1984;Glover et al. 1981;Nabeel-Shah et al. 2020;Qiao et al. 2017).H3 clipping occurs specifically in the MIC (Allis et al. 1979;Wei et al. 2022).H2A.Z and H3.3 are MAC-specific and associated with transcription during cell growth and starvation (Stargell et al. 1993;Wahab et al. 2020).Histones in developing cells exhibit significant acetylation in the MAC (Sharp et al. 2005;Wahab et al. 2020).Although the MIC is transcriptionally silent during the vegetative stage, it is transcribed during the early sexual development stage (Martindale et al. 1985;Mochizuki and Gorovsky 2004;Saettone et al. 2018;Tian et al. 2022).
Histone chaperones are crucial for maintaining chromatin integrity and stability in T. thermophila.Disturbance of Nrp1 leads to abnormal mitosis in the MIC and abnormal amitosis in the MAC (Lian et al. 2021).Nrp1 deletion affects the nuclear import of H3 and H3K56ac (Lian et al. 2022).RebL1, a single homolog of human RBBP4/7 proteins, was identified and co-purified with H4 in T. thermophila (Nabeel-Shah et al. 2021).However, a comprehensive understanding of RebL1 remains elusive.Here, we found that RebL1 was localized evenly in the MAC, and its subcellular distribution was dynamically changed in the MIC.REBL1 knockdown inhibited cellular proliferation, leading to MAC swelling and abnormal micronuclear meiosis.RebL1 potentially interacted with a wide range of proteins belonging to multiple chromatin modifying and remodeling complexes.Understanding the function of RebL1 is important for unraveling the molecular mechanisms of the structural integrity of the MAC and MIC during asexual and sexual reproduction in ciliates.

Protein structure prediction
The RebL1 structure was predicted by the I-TASSER (Iterative Threading ASSEmbly Refinement, https:// zhang group.org/I-TASSER/) algorithm, which employs a multi-threading method to find structural templates in the Protein Data Bank (PDB).Subsequently, an atomic model was constructed through iterative template-based fragment assembly simulation.The 3D model was then re-threaded by BioLiP to predict the function of the target.The predicted results were visualized using Discovery Studio (http:// www.disco verys tudio.net/).The results were enhanced using Photoshop 2022.

Construction of REBL1-HA transformants and REBL1 knockout mutants
The C-terminal sequence (972 bp) and flanking sequence (666 bp) of REBL1 were amplified by PCR using primers REBL1-HA-5F/REBL1-HA-5R and REBL1-HA-3F/REBL1-HA-3R.The amplified fragments were ligated into the pMD-19 T vector, and then the REBL1 C-terminal sequence and flanking sequence were digested with Sac I/Not I and Xho I/Kpn I, respectively.The digested fragments were ligated with pHA-Neo4.The recombinant fragment was amplified with primer Shoot-REBL1-HA-F/Shoot-REBL1-HA-R and transferred into T. thermophila by biolistic transformation with a biolistic particle delivery system (SCIENTZ, China).Transformants containing the NEO4 cassette are paromomycin-resistant (Mochizuki 2008;Qiao et al. 2022).The transformants were therefore selected by paromomycin, and the mutants were confirmed by PCR with the primer J-REBL1-HA-F/J-REBL1-HA-R.
The 5ʹ and 3ʹ flanking sequences of REBL1 were amplified with primers K-REBL1-5F/K-REBL1-5R and K-REBL1-3F/K-REBL1-3R, respectively.The fragments were ligated with pMD-19T.The recombinant plasmids were then digested with Sac I/Not I and Xho I/Kpn I.The digested fragments were ligated with pNeo4 and digested with the same enzymes.The recombinant plasmid pNeo4-REBL1 was then digested with Sac I/Kpn I and transformed into T. thermophila by the biolistic particle delivery system.Transformants were selected by paromomycin resistance, and the mutants were confirmed by PCR with the primer J-K-REBL1-F/J-K-REBL1-R.

Construction of HA-REBL1 and HA-truncated REBL1 mutants
The REBL1 or truncated REBL1 were amplified using different primers and then ligated into the pMD-19T vector.After sequencing, the fragments were digested using BamH I/Sgs I and subsequently inserted into the pXS75 vector.The constructed plasmid was digested with Sac I/Xho I, and the resulting fragment was transformed into T. thermophila by biolistic transformation using the GJ-1000 (SCIENTZ, Ningbo, China).Subsequently, the mutants were chosen through paromomycin screening.

Construction of conditionally induced interference mutants
Fragments (500 bp) unique to REBL1 were amplified using primers RNAi-REBL1-1F/RNAi-REBL1-1R and RNAi-REBL1-2F/RNAi-REBL1-2R.The two fragments were digested with Pst I/Sma I and BamH I/Pme I.The php-Neo5 vector digested by the same enzyme was ligated with the digested fragments.The interference plasmid pREBL-1hpNeo5 was transformed into the MAC of T. thermophila by biolistic transformation using the GJ-1000 (SCIENTZ, Ningbo, China).Transformants were chosen by paromomycin resistance.The knockdown efficiency of REBL1 was confirmed by qRT-PCR with the primer RT-REBL1-F/ RT-REBL1-R.

RT-PCR and qPCR
RNA was extracted with TRIeasy reagent (Yeasen Biotechnology, Shanghai, China) and converted into cDNA using a Hifair II 1st Strand cDNA Synthesis Kit (Yeasen Biotechnology, Shanghai, China).The cDNA was used for quantitative PCR analysis using a Bio-Rad CFX Connect Real-time System (Bio-Rad), with the threshold series number determined by Bio-Rad CFX Maestro software.The primers employed are listed in Supplementary Table S2.17S rRNA served as an endogenous control.

Co-immunoprecipitation and mass spectrometry
Cells (1 × 10 7 ) were dissolved in 500 μL lysis solution with an inhibitor cocktail (Thermo Fisher Scientific, Waltham, MA, USA) and 50 mmol/L EDTA.After ultrasonic crushing and centrifugation, the supernatant was incubated with 20 μL of packed anti-HA agarose (Thermo Fisher Scientific, Waltham, MA, USA) in a spin column overnight at 4 °C.The sample was centrifuged at 885 g for 30 s and washed seven times with TBST (25 mmol/L Tris-HCl, 0.15 mol/L NaCl, pH 7.2, 0.05% Tween-20).The HA-tagged protein was eluted with 25 μL non-reducing sample buffer and boiled for 5 min.Then, 5.5, 6.5, and 12 μL of the samples were used for Western blot, silver staining, and mass spectrometry, respectively.
Trypsin was added to the sample (mass ratio of 1:50) after reduction and alkylation, and the samples were incubated at 37 °C for 20 h.The sample was desalted, lyophilized, and then redissolved in 0.1% FA solution before being kept at −20 °C.Following the calibration of the column using 95% liquid A (0.1% formic acid aqueous solution), an automated sampler was used for inserting the sample into the trap column.Following each complete scan, twenty fragments were collected (MS2 Scan).Proteome Discoverer1.4software was used to search the corresponding database for the original file of the mass spectrometry test.The fold change of peptide counts for each individual interaction was computed as the peptide counts in the bait divided by the peptide counts of the same prey in the control purifications (zero counts were replaced by 0.1).Mass spectrometry data obtained after immunoprecipitation of wild-type (WT) cells without HAtag was used as a control.The proteins with a RebL1-HA/ WT ratio of more than 40 (vegetative) or 20 (8 h of conjugation) were defined as proteins that have a specific interaction with RebL1.

Characterization of histone chaperone RebL1
REBL1 (TTHERM_00688660) had low expression in the vegetative growth and starvation stage and high expression during the sexual reproduction stage, reaching the highest expression 2 h after mixing (Fig. 1A).The expression profile of REBL1 resembled that in microarray expression data (http:// tfgd.ihb.ac.cn).RebL1 is an evolutionally conserved WD40-repeat family protein (Nabeel-Shah et al. 2021).It possesses seven WD40 repeats and forms a β-propeller conformation, which contributes to protein-protein interactions (Fig. 1B, C).The first WD40 repeats of RebL1 were conserved with terminal dipeptide (WD, FD, and YD), the second WD40 repeats contained WX dipeptide (Trp or random amino acid), and the last WD40 repeats ended without WD, FD, YD, or WX (Fig. 1B).Each WD40 repeat contained four β folds (Fig. 1D).In accordance with the structure of RBBP4/ RBBP7, the structure of RebL1 was predicted to form a stabilized circular structure.The binding sites of RebL1 with H3 and H4 were identified: pocket 1 binds H3, and pocket 2 binds H4 (Fig. 1D-F).

Dynamic localization of RebL1
The Cac3/RBBP4 localizes in both the cytoplasm and nucleus in S. cerevisiae (Johnston et al. 2001).To investigate the dynamic localization of RebL1, the recombinant plasmid pREBL1-HA was constructed and transformed into T. thermophila (Fig. 2A).The transformants were identified by PCR (Fig. 2B).RebL1-HA localized in the MAC and MIC during the vegetative growth and starvation stages (Fig. 2Ca-e) and formed a ring structure around the MIC during the micronuclear G2 phase and starvation stage (Fig. 2Cd-e).
Although the transcription level of REBL1 varied during the sexual development stage (Fig. 1A), Western blotting analysis showed that RebL1 maintained a stable expression level (Supplementary Fig. S1).The protein expression profile indicated that RebL1 is stable and could function as a scaffold protein during the conjugation stage.RebL1-HA localized in parental MACs at the early sexual development stage and transferred into new MACs at the early anlagen stage (Fig. 3a-h).However, the signal in parental MACs weakened at the late anlagen stage (Fig. 3f).RebL1-HA also localized in meiotic and mitotic MICs and disappeared in degraded meiotic products (Fig. 3d).Furthermore, it formed a ring structure around early meiotic MICs (Fig. 3a) and functional gametic nuclei (Fig. 3d).
Previous studies have reported that RBBP7 binds directly to H4 (Murzina et al. 2008) and a potential interaction between RebL1 and H4 has been identified in Tetrahymena (Nabeel-Shah et al. 2021).To further investigate the relationship between RebL1 and H4, four recombinant plasmids harboring an N-terminal HA-tag, i.e., pOE-REBL1, pOE-REBL1 TrN89 (truncated CAF1C_ H4_bd domains), pOE-REBL1 TrN35 (truncated N-terminal histone binding sites), and pOE-REBL1 TrC (truncated C-terminal histone binding sites), were created (Supplementary Fig. S2A, B).The target genes were regulated by MTT1 promoter and induced by Cd 2+ (Supplementary Fig. S2B).After the plasmids were transformed into T. thermophila, the mutant strains of RebL1 were obtained (Supplementary Fig. S2C, D).The HA-RebL1 localized in the periphery of MICs in the G2 phase during growth (Supplementary Fig. S3b).The localization of HA-RebL1 was similar to that of RebL1-HA both during asexual and sexual reproduction (Supplementary Fig. S3b-e).HA-RebL1 TrN89 localized in the cytoplasm during vegetative growth and conjugation (Supplementary Fig. S3f-i).HA-RebL1 TrN35 also localized in the cytoplasm (Supplementary Fig. S2j-m).Interestingly, HA-RebL1 TrN35 transiently imported into the replicating new MACs (Supplementary Fig. S3l).HA-RebL1 TrC also localized in the cytoplasm throughout the developmental process (Supplementary Fig. S2n-q).The defect of the H4 binding domains of RebL1 affected its nuclear distribution.Moreover, RebL1 had no predictable classic nuclear localization signal.These findings suggested that the nuclear translocation of RebL1 could be involved in histone H4 binding domains or interaction with H4.

REBL1 knockdown affected macronuclear structure and cellular proliferation
RBBP4 and RBBP7 exist together in several transcriptional complexes and play a redundant function during preimplantation development (Xiao et al. 2022).To investigate the function of RebL1, the REBL1 knockout plasmid was constructed.The REBL1 knockdown mutants, REBL1KDB (mating type II) and REBL1KDC (mating type VII) were created (Supplementary Fig. S4A-C).We failed to obtain REBL1 knockout mutants through phenotype screening under paromomycin selection, which suggested REBL1 is essential for cell survival.qRT-PCR showed 35.74% and 55.14% reduction of REBL1 transcripts in the different mutants.The proliferation of REBL1KD was similar to that of WT (Supplementary Fig. S4D).During the early conjugation stage, REBL1 knockdown mutants completed meiosis normally (Fig. 4Aa-d, a'-d').Among four meiotic products, one is chosen and undergoes mitosis to produce gametic  4Af, g, B), however, only 17.16% of the mutant cells performed micronuclear mitosis, and 33.66% of mutant cells were aberrant at this stage (Fig. 4Ae', g', B).Finally, 55.07% of the WT cells developed into exconjugants with two MACs and one MIC.In contrast, 13.09% of mutants developed into exconjugants with two MACs and one MIC at 24 h of mixing (Fig. 4A,  B).Furthermore, γH2AX and H3K56ac were investigated to determine whether DSBs were repaired after meiosis.In the WT, H3K56 of the selected pronucleus was acetylated and the signal of γH2AX disappeared with the repair of the DNA damage.However, the γH2AX signal and H3K56ac modification were maintained in the REBL1KD strain, which indicated defective DNA repair in the mutants (Fig. 4C).
To further investigate the stage-specific function of RebL1, conditional knockdown rebL1i was created (Fig. 5A).RNAi was induced by adding Cd 2+ to the mutant (Howard-Till et al. 2013).The expression levels of the rebL1iB (mating type II) and rebL1iC (mating type VII) decreased by 91.2% and 97.44% when exposed to 0.5 μg/ mL Cd 2+ for 96 h, respectively (Fig. 5B).Proliferation of rebL1i mutants decreased compared to that of WT (Fig. 5C).Furthermore, mutants had larger MACs (Fig. 5D, E).After being starved for 24 h, the MACs of 41.75% mutants and 4% WT became irregular and abnormal (Fig. 5Fb-e).These findings suggested that REBL1 knockdown affects macronuclear structure and cellular proliferation.

REBL1 knockdown abolished sexual development
The knockdown of REBL1 inhibited cellular proliferation during vegetative growth.To investigate the role of RebL1 during conjugation, the mutants were induced with 0.1 μg/ mL Cd 2+ for 24 h during starvation.Then, the different mating type cells were mixed.The MICs began meiosis and stretched normally (Fig. 6Aa', b'), and in rebL1i, meiosis was abnormal in 31.97% of conjugants at 4 h, i.e., the micronuclear chromosome was lost (Fig. 6Ac'-e', B) and gametic nuclei failed to form (Fig. 6Af'-h').Of the mating rebL1i mutants, 52.35% separated abnormally and formed abnormal single cells (Fig. 6Ai'-j', B).At 24 h after mixing, 42.75%

Overexpression of REBL1 affected cellular proliferation and sexual development
Overexpression of RBBP4 is found in several cancer types such as thyroid carcinomas (Pacifico et al. 2007).The patients who expressed high RBBP4 have shorter overall survival times (Hart et al. 2021;Li et al. 2019;Zheng et al. 2013).In the present study, REBL1 was overexpressed under 0.5 μg/mL Cd 2+ induction to further investigate the function REBL1 played.REBL1 was upregulated by 61 and 284fold in OE-REBL1B and OE-REBL1C mutants, respectively (Supplementary Fig. S5A).The overexpression of REBL1 inhibited the proliferation of mutant cells (Supplementary Fig. S5B).During sexual reproduction, only 7.12% of cells developed into exconjugants with two MACs and one MIC, and 47.99% of cells were abnormal (Supplementary Fig. S5C, D).The overexpression of REBL1 not only inhibited cellular proliferation but also affected sexual development in T. thermophila.

RebL1 interacted with different chromatin-associated proteins
RBBP4/7 have been shown to be components of the CAF-1, HAT1, NURF, and NuRD complex.Nabeel-Shah et al. (2021) showed that RebL1 interacts with diverse chromatin-associated proteins during the vegetative growth and sexual developmental stages by expressing RebL1 with a C-terminal FZZ epitope tag.All the RebL1 interaction partners identified during vegetative growth are also detected in the conjugating 5 h post-mixing Tetrahymena.At conjugation 8 h, degradation of the parental MAC is initiated, the new MAC begins to form, and the genome of the new MAC undergoes replication and rearrangement (Austerberry et al. 1984;Xu et al. 2021).RebL1 showed strong localization signals in the newly developing MAC (Fig. 3f).To study the function and the potentially interacting partners of RebL1 after 8 h of conjugation, co-immunoprecipitation and affinity purification-mass spectrometry (AP-MS) analysis was performed during the vegetative phase and 8 h post-mixing (Fig. 7A, B; Supplementary Tables S3,  S4).During the vegetative growth stage, 44 proteins that potentially interacted with RebL1 were identified, including different chromatin-associated components.I: type B histone acetyltransferase Hat1; II: histone deacetylase Thd1/ Rpd3, TTHERM_00450950/Sin3, TTHERM_00476650/ Pho23, Sap30, TTHERM_00992830/Rxt3 (components of Sin3/HDAC histone deacetylation complex); III: Chd3, a component of the nucleosome remodeling and histone de-acetylation NuRD; IV: Lin9 and Jinn1, components of the MuvB transcriptional regulatory complex; V: Dyh6 and Dyh16, components of the dynein family; VI: proteins related to DNA replication and transcription, chromatin remodeling, and nuclear import (Fig. 7C, D).
Seventeen potential interaction partners were obtained at conjugation 8 h, which included components of Sin3, CAF-1, MuvB complexes, proteins associated with chromatin remodeling, and proteins specific to conjugation (Fig. 7C, E).The MuvB complex contained Anqa1, Lin9, and Jinn1.The CAF-1 complex included the large subunit Caf1a.The chromatin remodeling-related proteins included TTHERM_00343570 (homologous to INO80 ATPase in yeast).The conjugation stage-specific proteins that potentially interacted with RebL1 included Coi17 (conjugationinduced 17), and Forc1 (friend of RebL1 in conjugation).The proteins potentially interacting with RebL1 that were T-test was applied for significance analysis (** P < 0.01).C Proliferation of rebL1i mutants and WT.CU428, rebL1iC, and CU428 + Cd 2+ were used as controls.CU428 + Cd 2+ and rebL1iC + Cd 2+ were induced for 96 h at 0.5 μg/mL Cd 2+ .D Nuclear morphology of rebL1i mutants.Cells were fixed with formaldehyde and stained with DAPI.Scale bar, 10 µm.E Macronuclear area in rebL1i.rebL1i mutants were cultured with and without Cd 2+ for 96 h and then fixed with formaldehyde.The area of large nuclei was measured using ImageJ (n = 100).T test was applied for significance analysis (*P < 0.05; **P < 0.01).F Morphology of MAC in rebL1i mutants during starvation.Cells were cultured in SPP medium containing 0.5 μg /mL Cd 2+ for 96 h and then starved in Tris-HCl with 0.25 μg/mL Cd 2+ for 24 h.Cells were then fixed with formaldehyde and DAPI staining was performed (n = 100).Scale bar, 10 µm common to the vegetative growth and sexual reproduction stages were Sin3, Sap30, Jinn1, and Lin9.However, components of PRC2 and NURF complexes were absent in the RebL1 interaction partners during the growth and conjugation stages.

Downregulated expression of genes involved in chromatin organization and transcription
Previous studies have shown that the expression of RAD51, ANQA1, and LIN9 decreased with REBL1 reduction (Nabeel-Shah et al. 2021).RebL1 is associated with various complexes that participate in chromatin assembly, modification, and remodeling (Nabeel-Shah et al. 2021).To further investigate the expression regulation of specific genes, expression levels of the genes involved in chromatin organization and transcription were examined in REBL1 knockdown mutants.The expression levels of SIN3, THD1, CHD3, HAT1, CAF1B, FORC1, POLD1, and RPB1 were downregulated in the rebL1i mutants (Fig. 8A-H).The expression of HIR1, a key factor for non-replication-coupled nucleosome assembly, was also down-regulated in rebL1i (Fig. 8I), suggesting that the downregulation of REBL1 could affect non-replication-coupled nucleosome assembly and replication-coupled nucleosome assembly.

Discussion
In eukaryotes, the CAF-1 complex is a highly conserved histone chaperone that functions in nucleosome assembly during DNA replication (Ransom et al. 2010;Winkler et al. 2017).Here, we showed that RebL1 dramatically localizes in the functional MAC and MIC and is required for cellular vegetative growth and sexual reproductive development in Tetrahymena.
In Plasmodium falciparum, PfRbAp46/48 (RBBP7/4 homologous) localizes at the nuclear periphery during the ring stage and overlaps with chromatin during the trophozoite and schizont stages (Kaushik et al. 2020).In C. elegans, RbAp46 LIN-53 (RBBP7 homologous) localizes to the nucleus during interphase and is present at the centromere during metaphase, but is absent during anaphase and telophase (Lee et al. 2016).We found that RebL1 localized in the actively transcriptional MAC during vegetative growth and the sexual developmental stage in T. thermophila (Figs. 2C,3).It also localized in the replicating MIC during the S phase and transferred to the periphery of the MIC during the G2 phase (Fig. 2Cc, d).RebL1 had a weak signal in crescent MICs (Fig. 3b), which perform DNA double-strand breaks and repair.Following the selection of meiotic products, the selected product goes through post-meiotic mitosis, and the remaining three nuclei degenerate (Loidl 2021).The signal of RebL1 was present in the selected pronuclei, which implied that it might participate in gametic DNA replication and chromatin remodeling (Fig. 3d).The gametic nuclei fuse to form a zygotic nucleus which divides twice to produce four nuclei, two of which develop into new MACs (Cole and Sugai 2012;Slade et al. 2011).The new MACs undergo DNA replication and chromatin remodeling (Cole and Sugai 2012;Doerder and Debault 1975).A strong signal of RebL1 occurred in the new MACs, which indicated that RebL1 might be related to DNA replication or genome rearrangement (Fig. 3f).The nuclear periphery is a repressive compartment of nucleus clustering inactive genes.RebL1 in this region might be involved in transcription repression or chromatin remodeling.RebL1-FZZ localizes in the MAC and micronuclear localization disappears with changes in the cell cycle (Nabeel-Shah et al. 2023).However, we found that the signal of RebL1-HA did not disappear in MIC, rather it performed positional shifts during the cell cycle.
RBBP4 is essential for preserving the identity of mouse embryonic stem cells (mESCs) and its loss enhances the transition from mESCs to trophoblast cells (Ping et al. 2023).Furthermore, RBBP4 acts as an essential barrier to prevent the induction of the pluripotent-to-totipotent cell fate transition and plays a significant role in heterochromatin assembly.The depletion of RBBP4 leads to the activation of a cluster of transposable elements (Ping et al. 2023).The loss of RBBP4 results in delayed S-phase development and slower DNA synthesis in chicken DT40 B cells (Satrimafitrah et al. 2016).Deletion of RBBP7 in mouse ovaries inhibits meiotic chromosome deacetylation and leads to chromosome misalignment and spindle abnormalities during meiosis (Balboula et al. 2014).In C. elegans, Lin53 (RBBP4 homologous) depletion affects the lifespan of the organism, leading to premature death (Müthel et al. 2019).REBL1 knockdown affected cellular proliferation, macronuclear structure, and gamete nucleus formation in Tetrahymena.We hypothesize that REBL1 knockdown resulted in aberrant deacetylation of histones in the MAC.At the same time, the knockdown of REBL1 may disrupt the stability of the CAF-1 complex, leading to aberrant chromatin assembly, loose chromatin structure, and abnormal meiosis or mitosis of MICs.Deletion of RBBP4, p150, and p60 in vertebrates all drive mitotic abnormalities (Satrimafitrah et al. 2016;Takami et al. 2007).Temozolomide-induced γH2AX foci are higher in RBBP4 mutant cells (Kitange et al. 2016).Simultaneous silencing of RBBP4 and RBBP7 increases in H2AX focus-containing primary human fetal fibroblast cells (Pegoraro et al. 2009).In selected pronuclei, the γH2AX signal was abnormally maintained in the REBL1 knockdown mutants (Fig. 4C).The gametic nuclei failed to form and sexual development was abolished in Tetrahymena.
The deacetylation and acetylation of histones determine the acetylation state of H3 and H4.Deacetylation of histones by the histone deacetylase complex Sin3 is one of the primary mechanisms involved in transcriptional repression in eukaryotes.We found that RebL1-HA interacted with the Sin3 complex during vegetative growing stages (Fig. 7D).In eukaryotes, most of the repression activity of the Sin3 complex is attributed to the histone deacetylase activity of Rpd3.The Sin3 complex is thought to mediate transcriptional repression through the gene-specific deacetylation of histones (Bernstein et al. 2000;Silverstein and Ekwall 2005).In budding yeast cells, Sin3 forms large and small complexes with Rpd3.Histones at promoter regions are deacetylated by the Rpd3L complex.On the other hand, the Rpd3S complex suppresses intragenic transcription start by targeting transcribed areas.(Sardiu et al. 2009).Therefore, RebL1 could dynamically regulate the acetylation of histones by different complexes in the MAC.Polycomb repressive complex 2 (PRC2) is the major methyltransferase for H3K27 methylation.In mammals, the PRC2 complex is made up of EED (extrasex combs [ESC, EED]), EZH2 (enhancer of zeste [E(z), EZH2]), SUZ12 (suppressor of zeste 12 [Su(z)12]), and RBBP4 (Deevy and Bracken 2019).In Drosophila, p55 is also present in the PRC2 complex.In Paramecium tetraurelia, PtCAF1 (RBBP4 homologous) is present in the PRC2 complex which functions in the deletion of internally eliminated sequences (Ignarski et al. 2014).However, RebL1 is absent in the PRC2 complex in Tetrahymena (Supplementary Table S1).These findings indicated that RebL1 and the PRC2 complex separated during the early evolution of Tetrahymena.RebL1 interacted with Caf1a during the sexual development stage.In Schizosaccharomyces pombe and S. cerevisiae, histone H3 deposits on the DNA that is being replicated or repaired by CAF-1 and HIR1 (Choi et al. 2005;Li et al. 2012;Pile et al. 2002;Sharp et al. 2005;Winkler et al. 2017;Yadav et al. 2017).CAF-1 depletion in Epstein-Barr virus-positive host cells causes loss of both H3.1 and H3.3 (Siddaway et al. 2022;Zhang et al. 2020).Reduction of REBL1 led to the downregulation of HIR1 expression, which might indirectly affect non-replication-dependent nucleosome assembly.
Histone acetylation influences gene expression and chromatin state.In yeast, Hat1 catalyzes the acetylation of newly synthesized histones.Furthermore, Hif1 binds to acetylated histone H4 in a Hat1/Hat2-dependent manner (Ai and Parthun 2004).Hat2/RBBP4 stimulates Hat1 catalytic activity and increases the specificity toward H4K12 (Ai and Parthun 2004;Poveda et al. 2004;Yue et al. 2022).Hat2/RBBP4 functions as a link connecting Hif1 with Hat1, and Hif1 with H4.Acetylation of histone H4 is maintained by the RBBP7-Hat1 complex, which is necessary for the deposition of the histone H3 variant, CENP-A, on centromeres (Kaushik et al. 2020).Previously, we have found that Hif1/Nrp1 disruption leads to abnormal mitosis and amitosis and affects the nuclear import of H3 and H3K56ac (Lian et al. 2021(Lian et al. , 2022)).REBL1 knockdown affected expression levels of the genes involved in chromatin organization and transcription (Fig. 8).We propose that REBL1 knockdown affects histone acetyltransferase Hat1 expression and activity in the cytoplasm and disrupts the histone deacetylase Rpd3 complex.Furthermore, the overexpression of REBL1 also affected cellular proliferation and sexual reproduction in Tetrahymena.These findings underscore the essential role of normal REBL1 expression during asexual and sexual reproduction.Taken together, these findings suggest that RebL1 is required for macronuclear structure stability and gametogenesis in T. thermophila.The present study provides important insights into the functional significance of RebL1 and adds to our understanding of transcriptional regulation and chromatin remodeling processes in ciliates.This knowledge may also have broader implications for our understanding of chromatin dynamics and nuclear organization in other eukaryotic organisms.
analysis of rebL1i nuclear development.SY constructed interfering plasmids.MZ analyzed the proliferation of rebL1i mutants.HH and WW wrote the manuscript.All authors read and approved the final manuscript.

Fig. 2
Fig. 2 Dynamic localization of RebL1 during vegetative growth and starvation stage.A Schematic of homologous recombination of pREBL1-HA.The cyan rectangle represents REBL1 and 5' homologous arm.The green rectangle signifies HA-Tags.The orange arrow indicates the NEO4 cassette.The white rectangle denotes the 3' homologous arm.The yellow arrows indicate the position of the primer used to identify the homologous arm.B Homologous

Fig. 3
Fig. 3 Localization of RebL1-HA during sexual reproduction.a, pair formation; b, crescent; c, meiosis; d, pronuclei selection; e, mitosis; f, anlagen; g, exconjugant with two MACs and two MICs; h, exconjugant with two MACs and one MIC.Triangles indicate parental

Fig. 4
Fig. 4 REBL1 knockdown affected gametic nucleus formation.A Nuclear development of WT and REBL1KD.a and a', pair formation; b and b', crescent; c and c', meiosis I; d and d', meiosis II; e and f', pronuclei selection; f, mitosis I; g, mitosis II; h, anlagen; i, exconjugant with two MACs and two MICs; j, exconjugant with two MACs

Fig. 5
Fig. 5 REBL1 knockdown by RNAi affected the proliferation of T. thermophila.A Schematic of rebL1i homologous recombination.The MTT1 is represented by the gray rectangle, and the two segments P1 and P2 in REBL1 are indicated by the purple arrows.The short linker is depicted by the green rectangle, and the NEO5 cassette is denoted by the purple rectangle.B Relative expression of REBL1 in rebL1i mutants and WT.Cells were induced under 0.5 μg/mL Cd 2+ for 96 h.T-test was applied for significance analysis (** P < 0.01).C Proliferation of rebL1i mutants and WT.CU428, rebL1iC, and CU428 + Cd 2+ were used as controls.CU428 + Cd 2+ and rebL1iC + Cd 2+ were induced for 96 h at 0.5 μg/mL Cd 2+ .D Nuclear morphology of rebL1i

Fig. 6
Fig. 6 REBL1 knockdown affected sexual reproduction of Tetrahymena.A Sexual reproductive development of rebL1i and WT induced with Cd 2+ .0.1 μg/mL Cd 2+ was added during starvation and subsequently increased to 0.25 μg/mL after 2 h of pairing.a and a', pair formation; b and b', crescent; c, meiosis I; d, meiosis II; e, pronuclei selection; f, mitosis I; g, mitosis II; h, anlagen; i, exconjugant with

Fig. 7
Fig. 7 Identification of proteins interacting with RebL1.A Silverstained band of cell lysate after passing through HA-tag gel column.M, protein pre-stained marker; 1, WT sample during vegetative growth; 2, RebL1-HA sample during vegetative growth; 3, WT sample during conjugation 8 h; 4, RebL1-HA sample during conjugation 8 h.B Western blot of cell lysate after passing through HA-tag gel column.C Venn diagrams illustrate unique and shared proteins interacting with RebL1 during vegetative growth (purple) and conjugation (blue).D RebL1-HA interaction network during vegetative growth.E RebL1-HA interaction network during conjugation