The Poly (ADP-ribose) polymerase (PARP) family has numerous essential functions in cellular processes such as transcription, chromatin remodelling, DNA damage response and repair as well as apoptosis. PARP inhibition blocks base excision repair and results in conversion of SSBs to DNA double-strand break (DSBs). DSBs are the most deleterious form of DNA damage that can be generated by exogenous DNA damaging agents or endogenous replication stress. DSBs can be repaired by homologous recombination repair (HRR) or non-homologous end joining (NHEJ). The physiological importance of HRR is underscored by the observation of genomic instability in HRR-deficient (HRD+) cells and, importantly, the association of cancer predisposition and developmental defects with mutations in HRR genes. PARP1 and PARP2 are required for SSB repair, while PARP1 is also involved in the repair of DNA double-strand breaks (DSBs) and replication fork damage. Recent reports suggest the PARP1 inhibition is sufficient to elicit an anti-proliferative effect and that PARP2 is essential for the survival of hematopoietic stem and progenitor cells in animal models.AZD9574 is a novel brain penetrant PARP1 inhibitor that acts by selectively inhibiting and trapping PARP1 at the sites of SSBs. AZD9574 exhibited >8000-fold selectivity for PARP1 compared to PARP2 and other members of the PARP family (PARP2, PARP3, PARP5a and PARP6) in biochemical assays. While AZD9574 inhibited PARP1 enzymatic activity in all tested cell lines irrespective of the HRR status (IC50 range between 0.3 - 2 nM), colony formation assay in isogenic cell lines pairs confirmed higher potency and selectivity towards HRD+ models (DLD1 BRCA2-/-; SKOV-3 BRCA2-/- and SKOV-3 PALB2-/-). For example, AZD9574 IC50 in the BRCA2-/- DLD1 cells was 1.38 nM compared to IC50 > 40 µM BRCA2wt cells, which corresponds to a ~20,000-fold greater efficacy in the BRCA2-/-cells (ratio of AZD9574 IC50 in BRCA2wt divided by BRCA2-/-) compared to the wild type parental line. In vivo, AZD9574 demonstrated dose-dependent efficacy in a BRCA1 mutant MDA-MB-436 subcutaneous xenograft model. Anti-tumour effects of AZD9574 were manifested by pronounced growth regressions that were durable after treatment withdrawal. An intracranial xenograft model of breast cancer brain metastases was developed to assess the efficacy of AZD9574 in the context of blood-brain barrier penetrance. Treatment of animals with established intracranial lesions using a dose of 3 mg/kg AZD9574 showed sustained tumour growth suppression resulting in a significantly extended survival of tumour-bearing mice. Collectively, we believe that our data support the development of AZD9574 as a potential therapy for patients with HRD+ breast cancer whose disease has spread to the brain. Citation Format: Kunzah Jamal, Anna Staniszewska, Jacob Gordon, Shenghua Wen, Frank McGrath, Gregory Dowdell, Dominic Kabbabe, Giuditta illuzzi, Matthew Griffin, Barry R. Davies, Petra Hamerlik. AZD9574 is a novel, brain penetrant PARP-1 selective inhibitor with activity in an orthotopic, intracranial xenograft model with aberrant DNA repair [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 2609.
The Poly (ADP-ribose) polymerase (PARP) family has numerous essential functions in cellular processes such as transcription, chromatin remodelling, DNA damage response and repair as well as apoptosis. PARP inhibition blocks base excision repair and results in conversion of SSBs to DNA double-strand break (DSBs), the most deleterious form of DNA damage. DSBs can be repaired by homologous recombination repair (HRR) or non-homologous end joining (NHEJ). The physiological importance of HRR is underscored by the observation of genomic instability in HRR-deficient (HRD+) cells and, importantly, the association of cancer predisposition and developmental defects with mutations in HRR genes. PARP1 and PARP2 are required for SSB repair, while PARP1 is also involved in the repair of DNA double-strand breaks (DSBs) and replication fork damage. AZD9574 is a novel brain penetrant PARP1 inhibitor that acts by selectively inhibiting and trapping PARP1 at the sites of SSBs. While AZD9574 inhibited PARP1 enzymatic activity in all tested cell lines irrespective of the HRR status (IC50 range between 0.3 – 2 nM), colony formation assay in isogenic cell lines pairs confirmed higher potency and selectivity towards HRD+ models. In vivo, AZD9574 demonstrated dose-dependent efficacy in a BRCA1 mutant MDA-MB-436 subcutaneous xenograft model. Anti-tumour effects of AZD9574 were manifested by significant growth regressions that were durable after treatment withdrawal. An intracranial xenograft model of breast cancer brain metastases was developed to assess the efficacy of AZD9574 in the context of blood-brain barrier penetrance. Treatment of animals with established intracranial lesions showed sustained tumour growth suppression resulting in a significantly extended survival of tumour-bearing mice. Collectively, we believe that our data support the development of AZD9574 as a potential therapy for patients with HRD+ breast cancer whose disease has spread to the brain.This abstract was previously presented at AACR 2022 (Hamerlik et al, AACR 2022, Abs #3880)
Special collections hold a host of objects that lie outside the anticipated disintegrating newsprint or leather-bound tomes. Sometimes the items, at least as far as their provenance informs, appear to be rather abnormal. Within the Cassel Collection, held at Beeghly Library at Juniata College, was one such volume: Bibliotheca Politica. Abraham H. Cassel (1820–1908) collected widely during his lifetime, amassing a collection of 50,000 volumes. On the front flyleaf of Bibliotheca Politica, Cassel wrote: “This book [is] bound in human skin.” As will be seen, this is not a unique notation, nor is it unusual for such an inscription to be the only bit of information to suggest the binding material. Subsequent peptide mass fingerprinting of samples taken from the binding of Bibliotheca Politica proved it to be made of sheepskin. While this result led to a mingled sense of disappointment and relief, it did spark the author’s curiosity into this historical binding practice.
To study the behavior of Drosophila, it is often necessary to restrain and mount individual flies. This requires removal from food, additional handling, anesthesia, and physical restraint. We find a strong positive correlation between the length of time flies are mounted and their subsequent reflexive feeding response, where one hour of mounting is the approximate motivational equivalent to ten hours of fasting. In an attempt to explain this correlation, we rule out anesthesia side-effects, handling, additional fasting, and desiccation. We use respirometric and metabolic techniques coupled with behavioral video scoring to assess energy expenditure in mounted and free flies. We isolate a specific behavior capable of exerting large amounts of energy in mounted flies and identify it as an attempt to escape from restraint. We present a model where physical restraint leads to elevated activity and subsequent faster nutrient storage depletion among mounted flies. This ultimately further accelerates starvation and thus increases reflexive feeding response. In addition, we show that the consequences of the physical restraint profoundly alter aerobic activity, energy depletion, taste, and feeding behavior, and suggest that careful consideration is given to the time-sensitive nature of these highly significant effects when conducting behavioral, physiological or imaging experiments that require immobilization.
Diffuse large B-cell lymphoma (DLBCL) is an aggressive type of non-Hodgkin lymphoma (NHL) and the most common form of adult lymphoma. Despite efforts to develop new therapies, the standard of care for DLBCL remains chemotherapy based. The current standard of care is comprised of a regimen of 4 drugs (cyclophosphamide, doxorubicin, vincristine, and prednisone) combined with immunotherapy using a chimeric mAb against the protein CD20 (rituximab), R-CHOP. Unfortunately only 50 to 60% of patients with DLBCL achieve and maintain complete remission after first-line therapy and 40 to 50 % relapse or have refractory disease. In addition, the average age at the time of diagnosis for DLBCL is 64 which makes intensive chemotherapy challenging. Therefore, the development of new treatment options is critical. We explored preclinical activity of AZD2811 nanoparticle, a potent and selective inhibitor of Aurora B kinase combined with venetoclax, an inhibitor of BCL2 currently used as standard of care in treatment of Haematological cancers, in B-Cell non-Hodgkin lymphoma models. Twenty five B-cell NHL cell lines including 11 Diffuse Large B-cell Lymphoma (DLBCL) cell lines were exposed to a 7 x 7 matrix of AZD2811 and venetoclax for 72 hrs. Cell viability was assessed using Celltiter-glo. Strong combination activity (HSA > 0.1 and combination Emax > 0.5) was observed in 6 cell lines including 2 DLBCL cell lines (WSU-DLCL2 and KARPAS_422). Moreover, pre-treatment with pan caspase inhibitor Q-VD-OPH, increased cell viability in cells treated with the combination. Next we explored the significant gene expression and mutation biomarkers (effect size > 1, p < 0.05) for this combination associated with Bliss and combination Emax in B-cell NHL cell lines. We found downregulation of 4 genes (FLT4, TIE1, PRKN) and mutations in 2 genes (EP300 and PTEN) to be associated with Bliss score and upregulation of one gene (FGR) associated with combination Emax. In vivo, antitumor activity of AZD2811 combined with venetoclax was assessed in mice bearing WSU-DLCL2luc xenografts. Once weekly intravenous administration of 25 mg/kg AZD2811 resulted in a statistically significant tumor growth inhibition (TGI) of 74%, while daily oral gavage of 100 mg/kg venetoclax resulted in 49% TGI but failed to reach statistical significance. While both monotherapies were unable to prevent progressive tumor growth, a combination dosing regimen of AZD2811 and venetoclax drove progressive tumor regression resulting in statistically significant complete regression (98% regression) by the third week of dosing. These results suggest combining AZD2811 with venetoclax has potential to be active in DLBCL patients. Citation Format: Azadeh Cheraghchi-Bashi, Brandon Willis, Kevin. Mongeon, Jacob Gordon, Krishna Bulusu, Elizabeth Coker, Patricia Jaaks, Mathew Garnett, Jerome Mettetal. Activity and tolerability of combination of venetoclax with the Aurora kinase B Inhibitor AZD2811 in preclinical diffuse large B-cell lymphoma models [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 6303.
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