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Minimal Residual Disease in Myeloma: Application for Clinical Care and New Drug Registration

Anderson, Kenneth C. ; Auclair, Daniel ; Adam, Stacey J. ; [et al.]

American Association for Cancer Research (AACR) ; 2021

In: Clinical Cancer Research Vol. 27, No. 19 ( 2021-10-01), p. 5195-5212

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In: Clinical Cancer Research, American Association for Cancer Research (AACR), Vol. 27, No. 19 ( 2021-10-01), p. 5195-5212

Abstract: The development of novel agents has transformed the treatment paradigm for multiple myeloma, with minimal residual disease (MRD) negativity now achievable across the entire disease spectrum. Bone marrow–based technologies to assess MRD, including approaches using next-generation flow and next-generation sequencing, have provided real-time clinical tools for the sensitive detection and monitoring of MRD in patients with multiple myeloma. Complementary liquid biopsy–based assays are now quickly progressing with some, such as mass spectrometry methods, being very close to clinical use, while others utilizing nucleic acid–based technologies are still developing and will prove important to further our understanding of the biology of MRD. On the regulatory front, multiple retrospective individual patient and clinical trial level meta-analyses have already shown and will continue to assess the potential of MRD as a surrogate for patient outcome. Given all this progress, it is not surprising that a number of clinicians are now considering using MRD to inform real-world clinical care of patients across the spectrum from smoldering myeloma to relapsed refractory multiple myeloma, with each disease setting presenting key challenges and questions that will need to be addressed through clinical trials. The pace of advances in targeted and immune therapies in multiple myeloma is unprecedented, and novel MRD-driven biomarker strategies are essential to accelerate innovative clinical trials leading to regulatory approval of novel treatments and continued improvement in patient outcomes.

Type of Medium: Online Resource

ISSN: 1078-0432 , 1557-3265

URL: Article

DOI: 10.1158/1078-0432.CCR-21-1059

RVK:

XA 36791

Language: English

Publisher: American Association for Cancer Research (AACR)

Publication Date: 2021

detail.hit.zdb_id: 1225457-5

detail.hit.zdb_id: 2036787-9

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Small-Cell Carcinoma of the Ovary, Hypercalcemic Type–Genetics, New Treatment Targets, and Current Management Guidelines

Tischkowitz, Marc ; Huang, Sidong ; Banerjee, Susana ; [et al.]

American Association for Cancer Research (AACR) ; 2020

In: Clinical Cancer Research Vol. 26, No. 15 ( 2020-08-01), p. 3908-3917

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In: Clinical Cancer Research, American Association for Cancer Research (AACR), Vol. 26, No. 15 ( 2020-08-01), p. 3908-3917

Abstract: Small-cell carcinoma of the ovary, hypercalcemic type (SCCOHT) is a rare and highly aggressive ovarian malignancy. In almost all cases, it is associated with somatic and often germline pathogenic variants in SMARCA4, which encodes for the SMARCA4 protein (BRG1), a subunit of the SWI/SNF chromatin remodeling complex. Approximately 20% of human cancers possess pathogenic variants in at least one SWI/SNF subunit. Because of their role in regulating many important cellular processes including transcriptional control, DNA repair, differentiation, cell division, and DNA replication, SWI/SNF complexes with mutant subunits are thought to contribute to cancer initiation and progression. Fewer than 500 cases of SCCOHT have been reported in the literature and approximately 60% are associated with hypercalcemia. SCCOHT primarily affects females under 40 years of age who usually present with symptoms related to a pelvic mass. SCCOHT is an aggressive cancer, with long-term survival rates of 30% in early-stage cases. Although various treatment approaches have been proposed, there is no consensus on surveillance and therapeutic strategy. An international group of multidisciplinary clinicians and researchers recently formed the International SCCOHT Consortium to evaluate current knowledge and propose consensus surveillance and therapeutic recommendations, with the aim of improving outcomes. Here, we present an overview of the genetics of this cancer, provide updates on new treatment targets, and propose management guidelines for this challenging cancer.

Type of Medium: Online Resource

ISSN: 1078-0432 , 1557-3265

URL: Article

DOI: 10.1158/1078-0432.CCR-19-3797

RVK:

XA 36791

Language: English

Publisher: American Association for Cancer Research (AACR)

Publication Date: 2020

detail.hit.zdb_id: 1225457-5

detail.hit.zdb_id: 2036787-9

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Assessment of GS-9219 in a Pet Dog Model of Non-Hodgkin's Lymphoma

Vail, David M. ; Thamm, Douglas H. ; Reiser, Hans ; [et al.]

American Association for Cancer Research (AACR) ; 2009

In: Clinical Cancer Research Vol. 15, No. 10 ( 2009-05-15), p. 3503-3510

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In: Clinical Cancer Research, American Association for Cancer Research (AACR), Vol. 15, No. 10 ( 2009-05-15), p. 3503-3510

Abstract: Purpose: To assess, in dogs with naturally occurring non-Hodgkin's lymphoma, pharmacokinetics, safety, and activity of GS-9219, a prodrug of the nucleotide analogue 9-(2-phosphonylmethoxyethyl) guanine (PMEG), which delivers PMEG and its phosphorylated metabolites to lymphoid cells with preferential cytotoxicity in cells with a high proliferation index such as lymphoid malignancies. Experimental Design: To generate proof-of-concept, a phase I/II trial was conducted in pet dogs (n = 38) with naturally occurring non-Hodgkin's lymphoma using different dose schedules of GS-9219. A subset of dogs was further evaluated with 3′-deoxy-3′-18F-fluorothymidine positron emission tomography/computed tomography imaging before and after treatment. Results: The prodrug had a short plasma half-life but yielded high and prolonged intracellular levels of the cytotoxic metabolite PMEG diphosphate in peripheral blood mononuclear cells in the absence of detectable plasma PMEG. Dose-limiting toxicities were generally manageable and reversible and included dermatopathy, neutropenia, and gastrointestinal signs. Antitumor responses were observed in 79% of dogs and occurred in previously untreated dogs and dogs with chemotherapy-refractory non-Hodgkin's lymphoma. The median remission durations observed compare favorably with other monotherapies in dogs with non-Hodgkin's lymphoma. High 3′-deoxy-3′-18F-fluorothymidine uptake noted in lymphoid tissues before treatment decreased significantly after treatment (P = 0.016). Conclusions: GS-9219 was generally well tolerated and showed significant activity against spontaneous non-Hodgkin's lymphoma as modeled in pet dogs and, as such, supports clinical evaluation in humans.

Type of Medium: Online Resource

ISSN: 1078-0432 , 1557-3265

URL: Article

DOI: 10.1158/1078-0432.CCR-08-3113

RVK:

XA 36791

Language: English

Publisher: American Association for Cancer Research (AACR)

Publication Date: 2009

detail.hit.zdb_id: 1225457-5

detail.hit.zdb_id: 2036787-9

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Abstract CT545: Variability in NTRK gene fusions does not appear to impact response to larotrectinib

Ladanyi, Marc ; Roy-Chowdhuri, Sinchita ; Ritterhouse, Lauren ; [et al.]

American Association for Cancer Research (AACR) ; 2022

In: Cancer Research Vol. 82, No. 12_Supplement ( 2022-06-15), p. CT545-CT545

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In: Cancer Research, American Association for Cancer Research (AACR), Vol. 82, No. 12_Supplement ( 2022-06-15), p. CT545-CT545

Abstract: Introduction: Neurotrophic tyrosine receptor kinase (NTRK) gene fusions are oncogenic drivers in various tumor types. Gene fusions arise from inter- and intrachromosomal rearrangements involving the 3’ region of the NTRK gene and the 5’ end of a fusion partner gene, leading to the expression of a constitutively active tropomyosin receptor kinase (TRK) fusion protein. Larotrectinib is a highly selective and central nervous system (CNS)-active TRK inhibitor approved for the treatment of adult and pediatric patients with TRK fusion cancer. Larotrectinib has previously demonstrated an objective response rate (ORR) of 75% in 206 patients with non-primary CNS solid tumors (Hong et al, ASCO 2021). Here, we report on the TRK fusion exon junction organization in patients with TRK fusion cancer receiving larotrectinib. Methods: Patients with non-primary CNS TRK fusion cancer treated with larotrectinib were identified from three clinical trials (NCT02122913, NCT02576431, and NCT02637687). NTRK gene fusion data were determined by local molecular testing. The testing method, NTRK gene fusions, and exon structure were extracted from the molecular pathology reports from 212 patients. The data cut-off was July 20, 2020. Results: TRK fusion exon junction data were available for 80 patients from 14 different tumor types. Median age was 47 years (range 0.5-84 years). The ORR for these patients was 82.5% (95% confidence interval [CI] 72.4-90.1). Patients had gene fusions involving NTRK1 (40%), NTRK2 (4%), or NTRK3 (56%), a pattern similar to that seen in the larger dataset. We detected 20 different NTRK gene fusions; the most common were ETV6-NTRK3, TPM3-NTRK1, and LMNA-NTRK1 detected in 39 (49%), ten (13%), and seven (9%) patients, respectively. There were 12, three, and five different fusion partners associated with NTRK1, NTRK2, and NTRK3, respectively. The majority (12/20; 60%) of fusions were intrachromosomal rearrangement events: 8/12 (67%) related to NTRK1, 2/3 (67%) related to NTRK2, and 2/5 (40%) related to NTRK3. There were 35 different 5’/3’ gene breakpoint combinations: 3’ fusion points were located at NTRK1 exon 8 (n = 2), NTRK1 exon 9 (n = 5), NTRK1 exon 10 (n = 15), NTRK1 exon 11 (n = 6), NTRK1 exon 12 (n = 3), NTRK1 exon 13 (n = 1), NTRK2 exon 15 (n = 2), NTRK2 exon 16 (n = 1), NTRK3 exon 14 (n = 21), and NTRK3 exon 15 (n = 24). For ETV6-NTRK3 fusions, the NTRK3 fusion point was at exon 14 in ten of 11 thyroid carcinomas, but in only three of 13 salivary gland tumors. Conclusions: Among 80 patients with TRK fusion cancer, we detected 20 different NTRK gene fusions, of which 55% occurred in only one patient each. There were 36 different fusion variants. Despite the variability of the fusion structure, larotrectinib was equally efficacious. The large number of potential different fusion partners and involvement of various breakpoints highlight the need for validated and appropriate testing methodologies that are agnostic of 5’ partners and breakpoints. Citation Format: Marc Ladanyi, Sinchita Roy-Chowdhuri, Lauren Ritterhouse, Felix Sahm, Ricarda Norenberg, Kui Shen, Chi Chen, Marc Fellous, Nicoletta Brega, Cornelis M. van Tilburg, Jessica J. Lin, Marcia S. Brose, Ulrik N. Lassen, Ray McDermott, Theodore W. Laetsch, David S. Hong, Alexander Drilon, Erin R. Rudzinski. Variability in NTRK gene fusions does not appear to impact response to larotrectinib [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr CT545.

Type of Medium: Online Resource

ISSN: 1538-7445

URL: Article

DOI: 10.1158/1538-7445.AM2022-CT545

Language: English

Publisher: American Association for Cancer Research (AACR)

Publication Date: 2022

detail.hit.zdb_id: 2036785-5

detail.hit.zdb_id: 1432-1

detail.hit.zdb_id: 410466-3

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Abstract CT228: Concordance between tissue and circulating tumor DNA (ctDNA) testing for neurotrophic tyrosine receptor kinase ( NTRK ) gene fusions in larotrectinib (laro) clinical trials

Rudzinski, Erin R. ; Ladanyi, Marc ; Ritterhouse, Lauren L. ; [et al.]

American Association for Cancer Research (AACR) ; 2023

In: Cancer Research Vol. 83, No. 8_Supplement ( 2023-04-14), p. CT228-CT228

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In: Cancer Research, American Association for Cancer Research (AACR), Vol. 83, No. 8_Supplement ( 2023-04-14), p. CT228-CT228

Abstract: Background: NTRK gene fusions are oncogenic drivers in various tumor types. Laro, a highly selective and central nervous system (CNS)-active tropomyosin receptor kinase (TRK) inhibitor, is approved for the treatment of patients (pts) with TRK fusion cancer. Laro demonstrated an objective response rate (ORR) of 69% in 244 pts with solid (non-primary CNS) tumors (Drilon et al. ASCO 2022). Here, we report on the concordance between baseline local tissue-based testing with central tissue-based and liquid biopsy-based ctDNA testing to identify NTRK gene fusions. Methods: Pts with non-primary CNS TRK fusion cancer who underwent independent review committee assessments by July 15, 2019, in three laro clinical trials (NCT02122913, NCT02576431, and NCT02637687) were included. Tumor NTRK gene fusion status was determined locally by a variety of methods, and centrally by next-generation sequencing in both tissue (using Illumina TruSight™ Oncology Comprehensive) and ctDNA (using Guardant360® or GuardantOMNI®) at baseline. Data cut-off: July 20, 2021. Results: Of the 164 pts with NTRK fusions identified by local testing, 117 had evaluable tissue samples for central testing, and 99 had evaluable liquid biopsy samples. In total, 81.2% (95/117) of tumors had the fusion confirmed by central tissue testing. ctDNA testing detected NTRK gene fusions in 33.3% (33/99) of patients. Positive predictive values for each NTRK gene fusion are shown in the Table. The ORR for pts with NTRK gene fusions determined by local and central testing will be presented. Conclusions: A high proportion of tumors with locally identified NTRK gene fusions were confirmed centrally. At present, analysis of ctDNA is significantly less sensitive at detecting NTRK gene fusions. A negative ctDNA result requires next-generation sequencing testing of a tissue biopsy. Further research is needed to improve the sensitivity of ctDNA gene fusion detection. Table NTRK gene fusion Tissue-based LT Tissue-based CT ctDNA-based CT with LB Fusion confirmed, n Fusion confirmed, n Fusion not detected, n Unavailable samples, n† PPV‡: CT vs tissue-based LT, % Fusion confirmed, n Fusion not detected, n Unavailable samples, n† PPV‡: LB vs tissue-based LT, % NTRK1 68 35 14 19 71.4 20 34 14 37.0 NTRK2 4 3 1 0 75.0 0 4 0 0 NTRK3 92§ 57 7 28 89.1 13 28 51 31.7 †Includes no sample available and sample QC failed. ‡Calculated as a percentage of the number of confirmed fusions over the number of available samples. §Includes 9 inferred NTRK3 fusions. CT, central testing; ctDNA, circulating tumor DNA; LB, liquid biopsy; LT, local testing; NTRK, neurotrophic tyrosine receptor kinase; PPV, positive predictive value; QC, quality control. Citation Format: Erin R. Rudzinski, Marc Ladanyi, Lauren L. Ritterhouse, Felix Sahm, Ricarda Norenberg, Hong Zheng, Chi Chen, Vadim Bernard-Gauthier, Nicoletta Brega, Cornelis M. van Tilburg, Jessica J. Lin, Marcia S. Brose, Ulrik N. Lassen, Ray McDermott, Theodore W. Laetsch, David S. Hong, Alexander Drilon, Sinchita Roy-Chowdhuri. Concordance between tissue and circulating tumor DNA (ctDNA) testing for neurotrophic tyrosine receptor kinase (NTRK) gene fusions in larotrectinib (laro) clinical trials [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 2 (Clinical Trials and Late-Breaking Research); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(8_Suppl):Abstract nr CT228.

Type of Medium: Online Resource

ISSN: 1538-7445

URL: Article

DOI: 10.1158/1538-7445.AM2023-CT228

Language: English

Publisher: American Association for Cancer Research (AACR)

Publication Date: 2023

detail.hit.zdb_id: 2036785-5

detail.hit.zdb_id: 1432-1

detail.hit.zdb_id: 410466-3

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