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1.
Pathogens ; 12(3)2023 Mar 16.
Article in English | MEDLINE | ID: mdl-36986389

ABSTRACT

ß-D-glucopyranosyloxymethiluracil (Base J) is a modified thymidine base found in kinetoplastids and some related organisms. Interestingly, Base J distribution into the genome can vary depending on the organism and its life stage. Base J is reported to be found mostly at telomeric repeats, on inactive variant surface glycoproteins (VSG's) expression sites (e.g., T. brucei), in RNA polymerase II termination sites and sub-telomeric regions (e.g., Leishmania). This hypermodified nucleotide is synthesized in two steps with the participation of two distinct thymidine hydroxylases, J-binding protein 1 and 2 (JBP1 and JBP2, respectively) and a ß-glucosyl transferase. A third J-binding protein, named JBP3, was recently identified as part of a multimeric complex. Although its structural similarities with JBP1, it seems not to be involved in J biosynthesis but to play roles in gene expression regulation in trypanosomatids. Over the years, with the characterization of JBP1 and JBP2 mutant lines, Base J functions have been targeted and shone a light on that matter, showing genus-specific features. This review aims to explore Base J's reported participation as a regulator of RNA polymerase II transcription termination and to summarize the functional and structural characteristics and similarities of the remarkable JBP proteins in pathogenic trypanosomatids.

2.
Int J Biol Macromol ; 174: 573-586, 2021 Mar 31.
Article in English | MEDLINE | ID: mdl-33548324

ABSTRACT

Telomeres from different eukaryotes, including trypanosomatids, are transcribed into TERRA noncoding RNAs, crucial in regulating chromatin deposition and telomere length. TERRA is transcribed from the C-rich subtelomeric strand towards the 3'-ends of the telomeric array. Using bioinformatics, we confirmed the presence of subtelomeric splice acceptor sites at all L. major chromosome ends. Splice leader sequences positioned 5' upstream of L. major chromosomes subtelomeres were then mapped using SL-RNA-Seq libraries constructed from three independent parasite life stages and helped confirm TERRA expression from several chromosomes ends. Northern blots and RT-qPCR validated the results showing that L. major TERRA is processed by trans-splicing and polyadenylation coupled reactions. The number of transcripts varied with the parasite's life stage and continuous passages, being more abundant in the infective forms. However, no putative subtelomeric promoters involved in TERRA's transcriptional regulation were detected. In contrast, the observed changes in parasite's telomere length during development, suggest that differences in telomeric base J levels may control TERRA transcription in L. major. Also, TERRA-R loops' detection, mainly in the infective forms, was suggestive of TERRA's involvement in telomere protection. Therefore, Leishmania TERRA shares conserved features with other eukaryotes and advances new telomere specific functions in a Public Health-impacting parasite.


Subject(s)
Cloning, Molecular/methods , Gene Expression Profiling/methods , Leishmania major/growth & development , Transcription Factors/genetics , Databases, Genetic , Gene Expression Regulation, Developmental , Leishmania major/genetics , Leishmania major/metabolism , Polyadenylation , Protozoan Proteins/genetics , Protozoan Proteins/metabolism , RNA Splicing , Sequence Analysis, RNA , Telomere/genetics , Transcription Factors/metabolism
3.
Biochim Biophys Acta Gen Subj ; 1864(7): 129607, 2020 07.
Article in English | MEDLINE | ID: mdl-32222548

ABSTRACT

BACKGROUND: Telomeres are chromosome end structures important in the maintenance of genome homeostasis. They are replenished by the action of telomerase and associated proteins, such as the OB (oligonucleotide/oligosaccharide-binding)-fold containing telomere-end binding proteins (TEBP) which plays an essential role in telomere maintenance and protection. The nature of TEBPs is well known in higher and some primitive eukaryotes, but it remains undetermined in trypanosomatids. Previous in silico searches have shown that there are no homologs of the classical TEPBs in trypanosomatids, including Leishmania sp. However, Replication Protein A subunit 1 (RPA-1), an OB-fold containing DNA-binding protein, was found co-localized with trypanosomatids telomeres and showed a high preference for the telomeric G-rich strand. METHODS AND RESULTS: We predicted the absence of structural homologs of OB-fold containing TEBPs in the Leishmania sp. genome using structural comparisons. We demonstrated by molecular docking that the ssDNA binding mode of LaRPA-1 shares features with the higher eukaryotes POT1 and RPA-1 crystal structures ssDNA binding mode. Using fluorescence spectroscopy, protein-DNA interaction assays, and FRET, we respectively show that LaRPA-1 shares some telomeric functions with the classical TEBPs since it can bind at least one telomeric repeat, protect the telomeric G-rich DNA from 3'-5' Exonuclease I digestion, and unfold telomeric G-quadruplex. CONCLUSIONS: Our results suggest that RPA-1 emerges as a TEBP in trypanosomatids, and in this context, we present two possible evolutionary landscapes of trypanosomatids RPA-1 that could reflect upon the evolution of OB-fold containing TEBPs from all eukaryotes.


Subject(s)
Leishmania , Telomere-Binding Proteins , DNA , Leishmania/genetics , Molecular Docking Simulation , Replication Protein A/chemistry , Replication Protein A/genetics , Replication Protein A/metabolism , Telomere/genetics , Telomere/metabolism , Telomere-Binding Proteins/chemistry , Telomere-Binding Proteins/genetics
4.
Exp Mol Pathol ; 112: 104354, 2020 02.
Article in English | MEDLINE | ID: mdl-31837325

ABSTRACT

In the past decade, research efforts were made to identify molecular biomarkers useful as therapeutic targets in Non-Small Cell Lung Cancer (NSCLC), the most frequent type of lung carcinoma. NSCLC presents different histological subtypes being the most prevalent LUSC (Lung Squamous Cell Cancer) and LUAD (Lung Adenocarcinoma), and only a subset of LUAD patients' present tumors expressing known targetable genetic alterations. Telomeres and its components, including telomerase, the enzyme that replenishes telomeres, have been considered potential cancer biomarkers due to their crucial role in cell proliferation and genome stability. Our study aims to quantify expression changes affecting telomere-associated genes and ncRNAs associated with telomere regulation and maintenance in NSCLC. We first assessed the transcriptome (RNA-Seq) data of NSCLC patients from The Cancer Genome Atlas (TCGA) and then we tested the expression of telomere-associated genes and telomeric ncRNAs (TERC, telomerase RNA component, and TERRA, telomere repeat-containing RNA) in Brazilian NCSLC patient samples by quantitative RT-PCR, using matched normal adjacent tissue samples as the control. We also estimated the mean size of terminal restriction fragments (TRF) of some Brazilian NSCLC patients using telomeric Southern blot. The TCGA analysis identified alterations in the expression profile of TERT and telomere damage repair genes, mainly in the LUSC subtype. The study of Brazilian NSCLC samples by RT-qPCR showed that LUSC and LUAD express high amounts of TERT and that although the mean TRF size of tumor samples was shorter compared to normal cells, telomeres in NSCLC are probably maintained by telomerase. Also, the expression analysis of Brazilian NSCLC samples identified statistically significant alterations in the expression of genes involved with telomere damage repair, as well as in TERC and TERRA, mainly in the LUSC subtype. We, therefore, concluded that telomere maintenance genes are significantly deregulated in NSCLC, representing potential biomarkers in the LUSC subtype.


Subject(s)
Adenocarcinoma/genetics , Carcinoma, Non-Small-Cell Lung/genetics , Neoplasms, Squamous Cell/genetics , Telomere/genetics , Adenocarcinoma/classification , Adenocarcinoma/pathology , Biomarkers, Tumor/genetics , Brazil , Carcinoma, Non-Small-Cell Lung/classification , Carcinoma, Non-Small-Cell Lung/pathology , Cell Cycle Proteins/genetics , Cell Proliferation/genetics , DNA-Binding Proteins/genetics , Gene Expression Regulation, Neoplastic/genetics , Humans , Neoplasms, Squamous Cell/classification , Neoplasms, Squamous Cell/pathology , Nuclear Proteins/genetics , RNA/genetics , RNA, Long Noncoding/genetics , Shelterin Complex , Telomerase/genetics , Telomere-Binding Proteins/genetics , Transcription Factors/genetics , Transcriptome/genetics
5.
Biochim Biophys Acta Mol Cell Res ; 1864(1): 138-150, 2017 Jan.
Article in English | MEDLINE | ID: mdl-27836509

ABSTRACT

Leishmaniasis is a spectrum of diseases caused by parasites of the genus Leishmania that affects millions of people around the world. During infection, the parasites use different strategies to survive the host's defenses, including overcoming exposure to reactive oxidant species (ROS), responsible for causing damage to lipids, proteins and DNA. This damage especially affects telomeres, which frequently results in genome instability, senescence and cell death. Telomeres are the physical ends of the chromosomes composed of repetitive DNA coupled with proteins, whose function is to protect the chromosomes termini and avoid end-fusion and nucleolytic degradation. In this work, we induced acute oxidative stress in promastigote forms of Leishmania amazonensis by treating parasites with 2mM hydrogen peroxide (H2O2) for 1h, which was able to increase intracellular ROS levels. In addition, oxidative stress induced DNA damage, as confirmed by 8-oxodGuo quantification and TUNEL assays and the dissociation of LaRPA-1 from the 3' G-overhang, leading to telomere shortening. Moreover, LaRPA-1 was observed to interact with newly formed C-rich single-stranded telomeric DNA, probably as a consequence of the DNA damage response. Nonetheless, acute oxidative stress caused the death of some of the L. amazonensis population and induced cell cycle arrest at the G2/M phase in survivor parasites, which were able to continue proliferating and replicating DNA and became more resistant to oxidative stress. Taken together, these results suggest that adaptation occurs through the selection of the fittest parasites in terms of repairing oxidative DNA damage at telomeres and maintaining genome stability in a stressful environment.


Subject(s)
Adaptation, Physiological/genetics , DNA Repair , DNA, Protozoan/genetics , Hydrogen Peroxide/pharmacology , Leishmania mexicana/drug effects , Telomere Shortening/drug effects , Base Sequence , DNA Damage , DNA, Protozoan/metabolism , DNA, Single-Stranded/genetics , DNA, Single-Stranded/metabolism , DNA-Binding Proteins/genetics , DNA-Binding Proteins/metabolism , G2 Phase Cell Cycle Checkpoints , Gene Expression , Genetic Fitness , Leishmania mexicana/genetics , Leishmania mexicana/growth & development , Leishmania mexicana/metabolism , Oxidative Stress , Protozoan Proteins/genetics , Protozoan Proteins/metabolism , Reactive Oxygen Species/agonists , Reactive Oxygen Species/metabolism , Selection, Genetic , Stress, Physiological , Telomere/chemistry
6.
Biochim. Biophys. Acta Mol. Cell Res. ; 1864(1): 138-150, 2017.
Article in English | Sec. Est. Saúde SP, SESSP-IBPROD, Sec. Est. Saúde SP | ID: but-ib13622

ABSTRACT

Leishmaniasis is a spectrum of diseases caused by parasites of the genus Leishmania that affects millions of people around the world. During infection, the parasites use different strategies to survive the host's defenses, including overcoming exposure to reactive oxidant species (ROS), responsible for causing damage to lipids, proteins and DNA. This damage especially affects telomeres, which frequently results in genome instability, senescence and cell death. Telomeres are the physical ends of the chromosomes composed of repetitive DNA coupled with proteins, whose function is to protect the chromosomes termini and avoid end-fusion and nucleolytic degradation. In this work, we induced acute oxidative stress in promastigote forms of Leishmania amazonensis by treating parasites with 2 mM hydrogen peroxide (H2O2) for 1 h, which was able to increase intracellular ROS levels. In addition, oxidative stress induced DNA damage, as confirmed by 8-oxodGuo quantification and TUNEL assays and the dissociation of LaRPA-1 from the 3' G-overhang, leading to telomere shortening. Moreover, LaRPA-1 was observed to interact with newly formed C-rich single-stranded telomeric DNA, probably as a consequence of the DNA damage response. Nonetheless, acute oxidative stress caused the death of some of the L. amazonensis population and induced cell cycle arrest at the G2/M phase in survivor parasites, which were able to continue proliferating and replicating DNA and became more resistant to oxidative stress. Taken together, these results suggest that adaptation occurs through the selection of the fittest parasites in terms of repairing oxidative DNA damage at telomeres and maintaining genome stability in a stressful environment.

7.
Antimicrob Agents Chemother ; 59(8): 4669-79, 2015 Aug.
Article in English | MEDLINE | ID: mdl-26014945

ABSTRACT

Acetylation of lysine is a major posttranslational modification of proteins and is catalyzed by lysine acetyltransferases, while lysine deacetylases remove acetyl groups. Among the deacetylases, the sirtuins are NAD(+)-dependent enzymes, which modulate gene silencing, DNA damage repair, and several metabolic processes. As sirtuin-specific inhibitors have been proposed as drugs for inhibiting the proliferation of tumor cells, in this study, we investigated the role of these inhibitors in the growth and differentiation of Trypanosoma cruzi, the agent of Chagas disease. We found that the use of salermide during parasite infection prevented growth and initial multiplication after mammalian cell invasion by T. cruzi at concentrations that did not affect host cell viability. In addition, in vivo infection was partially controlled upon administration of salermide. There are two sirtuins in T. cruzi, TcSir2rp1 and TcSir2rp3. By using specific antibodies and cell lines overexpressing the tagged versions of these enzymes, we found that TcSir2rp1 is localized in the cytosol and TcSir2rp3 in the mitochondrion. TcSir2rp1 overexpression acts to impair parasite growth and differentiation, whereas the wild-type version of TcSir2rp3 and not an enzyme mutated in the active site improves both. The effects observed with TcSir2rp3 were fully reverted by adding salermide, which inhibited TcSir2rp3 expressed in Escherichia coli with a 50% inhibitory concentration (IC50) ± standard error of 1 ± 0.5 µM. We concluded that sirtuin inhibitors targeting TcSir2rp3 could be used in Chagas disease chemotherapy.


Subject(s)
Chagas Disease/drug therapy , Naphthols/pharmacology , Phenylpropionates/pharmacology , Sirtuins/drug effects , Trypanosoma cruzi/drug effects , Acetylation/drug effects , Animals , Cell Line , Cell Survival/drug effects , DNA Repair/drug effects , Macaca mulatta
8.
PLoS One ; 10(3): e0120896, 2015.
Article in English | MEDLINE | ID: mdl-25775131

ABSTRACT

Glyceraldehyde 3-phosphate dehydrogenase (GAPDH) is a classical metabolic enzyme involved in energy production and plays a role in additional nuclear functions, including transcriptional control, recognition of misincorporated nucleotides in DNA and maintenance of telomere structure. Here, we show that the recombinant protein T. cruzi GAPDH (rTcGAPDH) binds single-stranded telomeric DNA. We demonstrate that the binding of GAPDH to telomeric DNA correlates with the balance between oxidized and reduced forms of nicotinamide adenine dinucleotides (NAD+/NADH). We observed that GAPDH-telomere association and NAD+/NADH balance changed throughout the T. cruzi life cycle. For example, in replicative epimastigote forms of T. cruzi, which show similar intracellular concentrations of NAD+ and NADH, GAPDH binds to telomeric DNA in vivo and this binding activity is inhibited by exogenous NAD+. In contrast, in the T. cruzi non-proliferative trypomastigote forms, which show higher NAD+ concentration, GAPDH was absent from telomeres. In addition, NAD+ abolishes physical interaction between recombinant GAPDH and synthetic telomere oligonucleotide in a cell free system, mimicking exogenous NAD+ that reduces GAPDH-telomere interaction in vivo. We propose that the balance in the NAD+/NADH ratio during T. cruzi life cycle homeostatically regulates GAPDH telomere association, suggesting that in trypanosomes redox status locally modulates GAPDH association with telomeric DNA.


Subject(s)
Glyceraldehyde-3-Phosphate Dehydrogenases/metabolism , Oxidation-Reduction , Telomere/metabolism , Trypanosoma cruzi/metabolism , Active Transport, Cell Nucleus , Models, Theoretical , NAD/metabolism , Protein Binding , Protein Transport , Telomere/genetics , Trypanosoma cruzi/genetics , Trypanosoma cruzi/growth & development
9.
Prog Mol Biol Transl Sci ; 125: 1-40, 2014.
Article in English | MEDLINE | ID: mdl-24993696

ABSTRACT

Telomeres are the physical ends of eukaryotic linear chromosomes. Telomeres form special structures that cap chromosome ends to prevent degradation by nucleolytic attack and to distinguish chromosome termini from DNA double-strand breaks. With few exceptions, telomeres are composed primarily of repetitive DNA associated with proteins that interact specifically with double- or single-stranded telomeric DNA or with each other, forming highly ordered and dynamic complexes involved in telomere maintenance and length regulation. In proliferative cells and unicellular organisms, telomeric DNA is replicated by the actions of telomerase, a specialized reverse transcriptase. In the absence of telomerase, some cells employ a recombination-based DNA replication pathway known as alternative lengthening of telomeres. However, mammalian somatic cells that naturally lack telomerase activity show telomere shortening with increasing age leading to cell cycle arrest and senescence. In another way, mutations or deletions of telomerase components can lead to inherited genetic disorders, and the depletion of telomeric proteins can elicit the action of distinct kinases-dependent DNA damage response, culminating in chromosomal abnormalities that are incompatible with life. In addition to the intricate network formed by the interrelationships among telomeric proteins, long noncoding RNAs that arise from subtelomeric regions, named telomeric repeat-containing RNA, are also implicated in telomerase regulation and telomere maintenance. The goal for the next years is to increase our knowledge about the mechanisms that regulate telomere homeostasis and the means by which their absence or defect can elicit telomere dysfunction, which generally results in gross genomic instability and genetic diseases.


Subject(s)
Cellular Senescence/genetics , Genomic Instability , Telomere/physiology , Animals , Humans , Telomerase/metabolism
10.
PLoS One ; 8(11): e81397, 2013.
Article in English | MEDLINE | ID: mdl-24278433

ABSTRACT

Here, we show the morphological events associated with organelle segregation and their timing in the cell cycle of a reference strain of Leishmania (L.) amazonensis promastigotes, the main causative agent of Tegumentary leishmaniasis in the Americas. We show evidences that during the cell cycle, L. amazonensis promastigotes present two distinct modes of nucleus and kinetoplast segregation, which occur in different temporal order in different proportions of cells. We used DAPI-staining and EdU-labeling to monitor the segregation of DNA-containing organelles and DNA replication in wild-type parasites. The emergence of a new flagellum was observed using a specific monoclonal antibody. The results show that L. amazonensis cell cycle division is peculiar, with 65% of the dividing cells duplicating the kinetoplast before the nucleus, and the remaining 35% doing the opposite or duplicating both organelles concomitantly. In both cases, the new flagellum appeared during S to G2 phase in 1N1K cells and thus before the segregation of both DNA-containing organelles; however, we could not determine the exact timing of flagellar synthesis. Most of these results were confirmed by the synchronization of parasites using hydroxyurea. Altogether, our data show that during the cell cycle of L. amazonensis promastigotes, similarly to L. donovani, the segregation of nucleus and kinetoplast do not follow a specific order, especially when compared to other trypanosomatids, reinforcing the idea that this characteristic seems to be species-specific and may represent differences in cellular biology among members of the Leishmania genus.


Subject(s)
Cell Cycle/physiology , Cell Nucleus/physiology , DNA, Kinetoplast/physiology , Leishmania/physiology , Cell Division/physiology , DNA Replication
11.
Parasitology ; 140(4): 547-59, 2013 Apr.
Article in English | MEDLINE | ID: mdl-23388105

ABSTRACT

We have previously shown that the subunit 1 of Leishmania amazonensis RPA (LaRPA-1) alone binds the G-rich telomeric strand and is structurally different from other RPA-1. It is analogous to telomere end-binding proteins described in model eukaryotes whose homologues were not identified in the protozoan´s genome. Here we show that LaRPA-1 is involved with damage response and telomere protection although it lacks the RPA1N domain involved with the binding with multiple checkpoint proteins. We induced DNA double-strand breaks (DSBs) in Leishmania using phleomycin. Damage was confirmed by TUNEL-positive nuclei and triggered a G1/S cell cycle arrest that was accompanied by nuclear accumulation of LaRPA-1 and RAD51 in the S phase of hydroxyurea-synchronized parasites. DSBs also increased the levels of RAD51 in non-synchronized parasites and of LaRPA-1 and RAD51 in the S phase of synchronized cells. More LaRPA-1 appeared immunoprecipitating telomeres in vivo and associated in a complex containing RAD51, although this interaction needs more investigation. RAD51 apparently co-localized with few telomeric clusters but it did not immunoprecipitate telomeric DNA. These findings suggest that LaRPA-1 and RAD51 work together in response to DNA DSBs and at telomeres, upon damage, LaRPA-1 works probably to prevent loss of single-stranded DNA and to assume a capping function.


Subject(s)
DNA Breaks, Double-Stranded , Leishmania/genetics , Leishmania/metabolism , Protozoan Proteins/metabolism , Telomere/metabolism , Cell Cycle Checkpoints/drug effects , In Situ Nick-End Labeling , Leishmania/drug effects , Nucleic Acid Synthesis Inhibitors/pharmacology , Phleomycins/pharmacology
12.
Protein Pept Lett ; 18(2): 167-73, 2011 Feb.
Article in English | MEDLINE | ID: mdl-21121893

ABSTRACT

The present review intends to summarize the, yet preliminary, but very important emerging data underlining the functions exerted by the nicotinamide adenine dinucleotide (NAD+)-dependent deacetylase SIRT1 on protein homeostasis. The main focus of the discussion is the cooperation between SIRT1 and the heat shock factor 1 (HSF1) responsible for activating the transcription of molecular chaperones, the protein-protective factors that resolve damaged/misfolded and aggregated proteins generated by heat stress or metabolism. SIRT1, a mammalian ortholog of the yeast silent information regulator 2, is a stress activated protein deacetylase that contributes to life-span extension by regulating different cell survival pathways, including replicative senescence, inflammation and resistance to hypoxic and heat stress. Phosphorylation is the major mechanism controlling the level and function of SIRT1 required for normal cell cycle progression and cell survival under stress conditions. Phosphorylated SIRT1 deacetylates and coactivates different substrates, including HSF1. Deacetylated HSF1 binds to the heat shock promoter element found upstream of genes encoding molecular chaperones. Overexpression of SIRT1 in cultured cells also helps them to survive exposure to heat stress. Conversely, its down-regulation accelerates the attenuation of the heat shock response promoting the release of HSF1 from its cognate promoter element. Very recently, in a mouse model for Alzheimer's disease, SIRT1 deacetylase activity was also found activating the transcription of α-secretase, the enzyme responsible for inhibiting the formation of aggregates of neuronal ß-amyloid plaques. How SIRT1 activity protects cells from the deleterious effects of damaged/misfolded proteins and the implication of these findings on age-related pathologies are discussed.


Subject(s)
Sirtuin 1/physiology , Stress, Physiological , Alzheimer Disease/metabolism , Alzheimer Disease/pathology , Animals , Heat-Shock Proteins/chemistry , Heat-Shock Proteins/metabolism , Homeostasis , Humans , Parkinson Disease/metabolism , Parkinson Disease/pathology , Protein Folding , Substrate Specificity
14.
Rev. Inst. Med. Trop. Säo Paulo ; 32(6): 456-60, nov.-dez. 1990. tab
Article in English | LILACS | ID: lil-103066

ABSTRACT

Foram utilizadas 82 LCR de transplantados renais (24 pacientes), 43 LCR de pacientes com criptococose comprovada (controles positivos), 35 LCR de pacientes com outras doenças (histoplasmose, paracoccidioidomicose e infecçöes bacterianas) como controles negativos. Os primeiros foram cultivados em ágar Sabouraud com sementes de girassol e juntamente com os demais examiando pelo teste de látex para pesquisa de antígeno circulante de C. neoformans, qualitativamente. O teste de Coaglutinaçäo foi realizado qualitativamente e quantitativamente, encontrando-se títulos até a diluiçäo 1:2048. Näo foram detectadas reaçöes falso-positivas ou falso-negativas entre os controles. Como prova de valor diagnóstico demonstrou: sensibilidade - 92,1%; especificidade - 92,6% e eficiência - 92,3%. Provou também ser um teste rápido, exato e econômico, embora sua escolha dependa do pré-tratamento de LCR (80-C por 3 a 5 minutos) e soros (diluiçäo ou álcali-precipitaçäo) para evitar autoaglutinaçäo e aumentar a sensibilidade da reaçäo


Subject(s)
Humans , Antigens, Fungal/cerebrospinal fluid , Cryptococcosis/diagnosis , Cryptococcus neoformans/immunology , Immunocompromised Host , Latex Fixation Tests , Evaluation Study , Kidney Transplantation
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