Sina Maletti scite author profile

Patient-derived organoids (PDOs) represent promising preclinical models in various tumor types. In the context of prostate cancer (PCa), however, their establishment has been hampered by poor success rates, which impedes their broad use for translational research applications. Along with the necessity to improve culture conditions, there is a need to identify factors influencing outcomes and to determine how to assess success versus failure in organoid generation. In the present study, we report our unbiased efforts to generate PDOs from a cohort of 81 PCa specimens with diverse pathological and clinical features. We comprehensively analyzed histological features of each enrolled sample (Gleason score, tumor content, proliferation index) and correlated them with organoid growth patterns. We identified improved culture conditions favoring the generation of PCa organoids, yet no specific intrinsic tumor feature was broadly associated with sustained organoid growth. In addition, we performed phenotypic and molecular characterization of tumor-organoid pairs using immunohistochemistry, immunofluorescence, fluorescence in situ hybridization, and targeted sequencing. Morphological and immunohistochemical profiles of whole organoids altogether provided a fast readout to identify the most promising ones. Notably, primary samples were associated with an initial take-rate of 83% (n = 60/72) in culture, with maintenance of cancer cells displaying common PCa alterations, such as PTEN loss and ERG overexpression. These cancer organoids were, however, progressively overgrown by organoids with a benign-like phenotype. Finally, out of nine metastasis samples, we generated a novel organoid model derived from a hormone-naïve lung metastasis, which displays alterations in the PI3K/Akt and Wnt/β-catenin pathways and responds to androgen deprivation. Taken together, our comprehensive study explores determinants of outcome and highlights the opportunities and challenges associated with the establishment of stable tumor organoid lines derived from PCa patients.

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Alterations in homologous recombination repair genes in prostate cancer brain metastases

Rodriguez-Calero

Gallon

Akhoundova

et al. 2022

Nat Commun

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Improved survival rates for prostate cancer through more effective therapies have also led to an increase in the diagnosis of metastases to infrequent locations such as the brain. Here we investigate the repertoire of somatic genetic alterations present in brain metastases from 51 patients with prostate cancer brain metastases (PCBM). We highlight the clonal evolution occurring in PCBM and demonstrate an increased mutational burden, concomitant with an enrichment of the homologous recombination deficiency mutational signature in PCBM compared to non-brain metastases. Focusing on known pathogenic alterations within homologous recombination repair genes, we find 10 patients (19.6%) fulfilling the inclusion criteria used in the PROfound clinical trial, which assessed the efficacy of PARP inhibitors (PARPi) in homologous recombination deficient prostate cancer. Eight (15.7%) patients show biallelic loss of one of the 15 genes included in the trial, while 5 patients (9.8%) harbor pathogenic alterations in BRCA1/2 specifically. Uncovering these molecular features of PCBM may have therapeutic implications, suggesting the need of clinical trial enrollment of PCBM patients when evaluating potential benefit from PARPi.

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Phylogeny, taxonomics, and ovipositor length variation of thePteromalus albipennisspecies group (Hymenoptera: Chalcidoidea: Pteromalidae: Pteromalinae)

Maletti

Niehuis

Mayer

et al. 2020

J. Zool. Syst. Evol. Res.

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The Pteromalus albipennis species group currently comprises 29 Palaearctic parasitoid wasp species associated with tephritid fly larvae developing in flower heads of Asteraceae. The species group is taxonomically challenging, because its putative species are morphologically extremely similar to each other except for some conspicuous differences in gaster length, which is a reliable proxy for the ovipositor length. Ovipositor length dictates the accessibility of host larvae to the parasitoid female and thus largely determines the host range of a species. In this study, we infer the phylogenetic relationships of currently recognized species of the P. albipennis species group by analyzing the nucleotide sequences of 124 protein‐coding genes spanning more than 310,000 bp. The data were analyzed by applying the maximum likelihood optimality criterion (concatenated sequence data) as well as a multispecies coalescent approach (analyzing gene trees). Based on the inferred species trees, we (a) re‐evaluate previous species hypotheses in comparison with the new phylogenomic results and (b) assess whether or not ovipositor length variation is phylogenetically constrained. Our results show some incongruence between morphology‐based and phylogenomics‐based species delimitations and suggest the existence of paraphyletic species. Furthermore, our study suggests that ovipositor length is no reliable predictor of phylogenetic relatedness, but a labile trait, possibly reflecting rapid evolution of host range differences. Taxonomic ambiguities and the scarce knowledge on the biology of the analyzed species highlight the difficulties of studying parasitoid wasps, even in the Western Palaearctic, and despite the application of integrative taxonomics approaches (i.e., the use of hundreds of genes for taxonomy).

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The Genomic Landscape of Prostate Cancer Brain Metastases

Rodrı́guez

Gallon

Akhoundova

et al. 2020

Preprint

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Lethal prostate cancer commonly metastasizes to bone, lymph nodes, and visceral organs but with more effective therapies, there is an increased frequency of metastases to the brain.Little is known about the genomic drivers of prostate cancer brain metastases (PCBM). To address this, we conducted a comprehensive multi-regional, genomic, and targeted transcriptomic analysis of PCBM from 28 patients. We compared whole-exome and targeted RNA sequencing with matched primary tumors when available (n = 10) and with publicly available genomic data from non-brain prostate cancer metastases (n = 416). In addition to common alterations in TP53, AR, RB1, and PTEN, we identified highly significant enrichment of mutations in NF1 (25% cases (6/28), q = 0.049, 95% CI = 2.38 -26.52, OR = 8.37) and RICTOR (17.9% cases (5/28), q = 0.01, 95% CI = 6.74 -480.15, OR = 43.7) in PCBM compared to non-brain prostate cancer metastases, suggesting possible activation of the druggable pathways RAS/RAF/MEK/ERK and PI3K/AKT/mTOR, respectively. Compared to non-brain prostate cancer metastases, PCBM were almost three times as likely to harbor DNA homologous repair (HR) alterations (42.9% cases (12/28), p =0.016, 95% CI = 1.17 -6.64, OR = 2.8). When considering the combination of somatic mutations, copy number alteration, and Large-scale State Transitions, 64.3% of patients (18/28) were affected. HR alterations may be critical drivers of brain metastasis that potentially provide cancer cells a survival advantage during re-establishment in a special microenvironment. We demonstrate that PCBM have genomic dependencies that may be exploitable through clinical interventions including PARP inhibition.

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Sina Maletti

Prostate cancer patient‐derived organoids: detailed outcome from a prospective cohort of 81 clinical specimens

Alterations in homologous recombination repair genes in prostate cancer brain metastases

Phylogeny, taxonomics, and ovipositor length variation of thePteromalus albipennisspecies group (Hymenoptera: Chalcidoidea: Pteromalidae: Pteromalinae)

The Genomic Landscape of Prostate Cancer Brain Metastases

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