Single-cell analysis of the nervous system at small and large scales with instant partitions

Single-cell RNA sequencing is a new frontier across all biology, particularly in neuroscience. While powerful for answering numerous neuroscience questions, limitations in sample input size, and initial capital outlay can exclude some researchers from its application. Here, we tested a recently introduced method for scRNAseq across diverse scales and neuroscience experiments. We benchmarked against a major current scRNAseq technology and found that PIPseq performed similarly, in line with earlier benchmarking data. Across dozens of samples, PIPseq recovered many brain cell types at small and large scales (1,000-100,000 cells/sample) and was able to detect differentially expressed genes in an inflammation paradigm. Similarly, PIPseq could detect expected and new differentially expressed genes in a brain single cell suspension from a knockout mouse model; it could also detect rare, virally-la-belled cells following lentiviral targeting and gene knockdown. Finally, we used PIPseq to investigate gene expression in a nontraditional model species, the little skate (Leucoraja erinacea). In total, PIPSeq was able to detect single-cell gene expression changes across models and species, with an added benefit of large scale capture and sequencing of each sample.

Abstract P6-07-08: The complete spectrum of ESR1 mutations from 7590 breast cancer tumor samples

Background: Approximately 70% of newly diagnosed breast cancers express estrogen receptor alpha (ERα), and are treated with agents that block ER signaling. Acquired mutations in ESR1, the gene that encodes ERα, have been associated with resistance to aromatase inhibitor therapy in patients with ER positive metastatic breast cancer (ER+ mBC). The most frequently occurring ESR1 mutations are clustered between amino acids 536 to 538 within the ligand binding domain (LBD), although limited data exists characterizing the full mutation profile in a large number of breast cancer samples.

Methods: We surveyed the Foundation Medicine dataset of 7590 primary and metastatic breast cancer tumor samples for ESR1 short variants and copy number alterations. Hormone receptor status was unavailable, therefore two assumptions were made to provide an estimate of prevalence in the ER+ HER2- population: 70% of the tumor samples are from ER+ HER2- patients, and all ESR1 mutations from non-HER2 amplified metastatic sites are from ER+ HER2- patients. In a separate cohort of 48 ER+ mBC patients, circulating tumor DNA (ctDNA) was analyzed for ESR1 mutations using the BEAMing method by Sysmex and with Foundation Medicine's sequencing assay, FoundationACT (Assay for Circulating Tumor DNA).

Results: The prevalence of mutations in ER+ HER2- breast cancer was estimated to be 22% in samples from metastatic sites but less than 3% in samples from primary sites. ESR1 amplification was rare in samples from both primary and metastatic disease sites at 1.3% and 2.0% respectively. A total of 153 unique short variants of known and unknown status were identified. In addition to hotspot mutations at 537 and 538, previously undescribed rare mutations were identified throughout the entire length of the LBD, although 10 alterations at amino acids 380, 463, 536, 537, and 538 account for 86% of all ESR1 mutations in the ER+ HER2- metastatic sites. We also characterized the overlap of ESR1 alterations with commonly altered and clinically relevant genes in breast cancer, including PIK3CA mutations and HER2 amplification, and we report here a landscape of co-occurring alterations. In the cohort of patient samples where ctDNA was analyzed, BEAMing and FoundationAct assays both detected ESR1 mutations in 19 out of 48 samples, and overall concordance of mutation status (wild-type vs mutant) was 100%. A total of 51 individual mutations were detected with the BEAMing assay, 42 of which were detected with the FoundationACT assay. Seven mutations that were undetected by FoundationACT had mutant allele frequencies less than 0.1%. Ten ESR1 mutations were detected only by FoundationACT, 9 of which are not covered with the BEAMing assay. Alterations in PIK3CA, CDH1, TP53, ERBB2, and other breast cancer relevant genes were also detected with FoundationACT.

Conclusions: Understanding the mutational landscape of ESR1 and co-occurring alterations is important for diagnostic development in conjunction with the clinical development of novel anti-endocrine therapies. Our data demonstrate a large spectrum of mutations in the LBD in addition to known hotspot mutations. In addition, the FoundationACT assay offers a robust NGS-based method to screen for mutations in ctDNA that is highly concordant with digital PCR methods.

Citation Format: Spoerke JM, Schleifman E, Clark TA, Young G, Nahas M, Kennedy M, Young L, Chmielecki J, Otto GA, Lipson D, Wilson TR, Gendreau S, Lackner MR. The complete spectrum of ESR1 mutations from 7590 breast cancer tumor samples [abstract]. In: Proceedings of the 2016 San Antonio Breast Cancer Symposium; 2016 Dec 6-10; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2017;77(4 Suppl):Abstract nr P6-07-08.

Patient-derived xenotransplants can recapitulate the genetic driver landscape of acute leukemias

Genomic studies have identified recurrent somatic mutations in acute leukemias. However, current murine models do not sufficiently encompass the genomic complexity of human leukemias. To develop pre-clinical models, we transplanted 160 samples from patients with acute leukemia (AML, MLL, B-ALL and T-ALL) into immunodeficient mice. Of these, 119 engrafted with expected immunophenotype. Targeted sequencing of 374 genes and 265 frequently rearranged RNAs detected recurrent and novel genetic lesions in 48 paired primary tumor (PT) and patient-derived xenotransplant (PDX) samples. Overall, the frequencies of 274 somatic variant alleles correlated between PT and PDX samples, although the data were highly variable for variant alleles present at 0-10%. 17% of variant alleles were detected in either PT or PDX samples only. Based on variant allele frequency changes, 24 PT-PDX pairs were classified as concordant while the other 24 pairs showed various degree of clonal discordance. There was no correlation of clonal concordance with clinical parameters of diseases. Significantly more bone marrow samples than peripheral blood samples engrafted discordantly. These data demonstrate the utility of developing PDX banks for modeling human leukemia, and emphasize the importance of genomic profiling of PDX and patient samples to ensure concordance before performing mechanistic or therapeutic studies.

Comprehensive genomic profiling of anal squamous cell carcinoma reveals distinct genomically defined classes

BACKGROUND

Squamous cell cancers of the anal canal (ASCC) are increasing in frequency and lack effective therapies for advanced disease. Although an association with human papillomavirus (HPV) has been established, little is known about the molecular characterization of ASCC. A comprehensive genomic analysis of ASCC was undertaken to identify novel genomic alterations (GAs) that will inform therapeutic choices for patients with advanced disease.

PATIENTS AND METHODS

Hybrid-capture-based next-generation sequencing of exons from 236 cancer-related genes and intronic regions from 19 genes commonly rearranged in cancer was performed on 70 patients with ASCC. HPV status was assessed by aligning tumor sequencing reads to HPV viral genomes. GAs were identified using an established algorithm and correlated with HPV status.

RESULTS

Sixty-one samples (87%) were HPV-positive. A mean of 3.5 GAs per sample was identified. Recurrent alterations in phosphoinositol-3-kinase pathway (PI3K/AKT/mTOR) genes including amplifications and homozygous deletions were present in 63% of cases. Clinically relevant GAs in genes involved in DNA repair, chromatin remodeling, or receptor tyrosine kinase signaling were observed in 30% of cases. Loss-of-function mutations in TP53 and CDKN2A were significantly enhanced in HPV-negative cases (P < 0.0001).

CONCLUSIONS

This is the first comprehensive genomic analysis of ASCC, and the results suggest new therapeutic approaches. Differing genomic profiles between HPV-associated and HPV-negative ASCC warrants further investigation and may require novel therapeutic and preventive strategies.

Abstract P6-03-12: Comprehensive genomic profiling of clinically advanced mucinous carcinoma of the breast

Background: Mucinous carcinoma of the breast (mucBC) is generally associated with a favorable prognosis, but on occasion, may have an aggressive clinical course in which it is commonly refractory to cytotoxic chemotherapy. The low incidence of mucBC (∼2% of breast cancers) precludes the development of consensus based guidelines for management of these relapsed/refractory cases. We performed hybrid-capture based comprehensive genomic profiling (CGP) to identify potential therapy targets not routinely searched for in clinical management of metastatic mucBC.

Methods: DNA was extracted from 40 microns of FFPE sections from 22 cases of stage IV mucBC. Comprehensive genomic profiling (CGP) was performed using a hybrid-capture, adaptor ligation based next generation sequencing assay to a mean coverage depth of &gt;550X. The results were analyzed for all classes of genomic alterations (GA) including base substitutions, insertions and deletions, select rearrangements, and copy number changes. Clinically relevant genomic alterations (CRGA) were defined as those identifying anti-cancer drugs on the market or in registered clinical trials.

Results: The median age of the 22 mucBC patients was 57 years (range 32 to 79 years). Samples were from breast (11), lymph nodes (3), chest wall (2), liver (2), soft tissue (2), bone (1) and pleura (1). Three mucBC were grade 1, 17 were grade 2 and 2 were grade 3. Twenty-one (95%) mucBC were ER+, 19 (86%) were PR+ and 4 (18%) were HER2+ by IHC and/or FISH. There were 129 GA identified on the 22 mucBC (5.9 per tumor) including 51 CRGA with a mean of 2.3 per tumor. Amplifications of FGFR1 and ZNF703 were found in 8 out of 22 cases (36%) on the same amplicon. Other most frequently altered genes were TP53 (32%), CCND1 and FGF3/4/19 often co-amplified together (27%). ERBB2/HER2 alterations were found on 5 cases (23%) including amplifications on all 4 HER2+ cases by IHC and/or FISH, and ERBB2 substitution D769Y on one additional mucBC. CRGA were found on some other 20 genes included PIK3CA (5), BRCA1 (1), TSC2 (1), STK11 (1), AKT3 (1), and ESR1 (1).

Conclusions: The subset of relapsed/refractory mucBC presents a management challenge, but comprehensive genomic profiling offers avenues for benefit from targeted therapy. MucBC relative to breast cancer is predominantly ER+, enriched for FGFR1 amplification, 36% vs 11% from TCGA ER+ breast cancer (N=601) with Fisher's test p-value &lt;0.005. Moreover, metastatic mucBC appears more often to have ERBB2/HER2 alterations (23%) than typical mucBC cured by local treatments. Comprehensive genomic profiling uncovers a variety of genomic targets in metastatic mucBC that could facilitate the introduction of targeted therapies for patients with this challenging disease.

Citation Format: Wang K, Ali SM, Khaira D, Elvin JA, Vergilio J-A, Suh J, Yelensky R, Lipson D, Chmielecki J, Miller VA, Stephens PJ, Ross JS. Comprehensive genomic profiling of clinically advanced mucinous carcinoma of the breast. [abstract]. In: Proceedings of the Thirty-Eighth Annual CTRC-AACR San Antonio Breast Cancer Symposium: 2015 Dec 8-12; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2016;76(4 Suppl):Abstract nr P6-03-12.

Abstract P3-07-05: Non-amplification ERBB2 genomic alterations in 5,605 cases of refractory and metastatic breast cancer: An emerging opportunity for anti-HER2 targeted therapies

Background: Non-amplification ERBB2 alterations (ERBB2 mut) in advanced/metastatic breast cancer (mBC) are not detected by IHC or FISH, but when detected by DNA sequencing assays can lead to clinical responses to anti-HER2 targeted therapy. We queried a database of more than 43,000 clinical cases to uncover the frequency, type and associated genomic alterations (GA) in mBC driven by ERBB2 mut and highlight clinical responses to small molecule drug and antibody-based anti-HER2 therapeutics.

Methods: DNA was extracted from 40 microns of FFPE sections from 5,605 mBC. Comprehensive genomic profiling (CGP) was performed using a hybrid-capture, adaptor ligation based next generation sequencing assay of up to 315 genes to a mean coverage depth of &gt;600X. The results were analyzed for base substitutions, short insertions and deletions, selected rearrangements, and copy number changes.

Results: 698 (12.5%) of 5,605 mBC featured ERBB2 alterations. 596 (10.6%) featured ERBB2 amplifications and 137 (2.4%) featured ERBB2mut. 35 (0.6%) of total mBC had both ERBB2amp and ERBB2mut, which accounted for 5.0% of all ERBB2 altered mBC. The 137 ERBB2mut mBC cases had a median age of 61 years (range 29 to 93 years) and were sequenced to a mean depth of 600X. Samples utilized for CGP included 52 (38%) from the patient's primary BC and 85 (62%) from metastatic sites including bone/soft tissue/skin (12%), liver (20%), LN (14%), serous cavities (6%), lung (4%) and miscellaneous sites (6%). 71 (52%) mBC were submitted as carcinoma NOS, 44 (32%) as IDC, 22 (16%) as ILC and 1 (1%) as mucinous mBC. Of the 137 ERBB2mut cases, 8 featured more than 1 ERBB2 mut. There were 124 (85%) ERBB2 kinase domain mutations and 15 (10%) extra-cellular domain ERBB2mut. The most common genes co-altered in ERBB2mut mBC were TP53 (49%), PIK3CA (42%), CDH1 (37%), MYC (17%), and CCND1 (16%). The enrichment of ERBB2mut in CDH1 mut mBR was significant (p=0.0006) and associated with relapsed lobular mBC. Multiple case examples of kinase domain and extra-cellular domain ERBB2mut mBC responding to a variety of anti-HER2 targeted therapies will be presented.

Conclusions: In this large series of 5,605 mBC, 20% of the total ERBB2 alterations were non-amplification ERBB2mut not detectable by standard of care IHC and FISH slide-based HER2 tests. Given the demonstration of ERBB2mut driven mBC responsive to anti-HER2 targeted therapies in this study, expansion of clinical trials designed to detect these ERBB2mut cases with CGP and optimize the targeted therapies for these patients is strongly recommended.

Citation Format: Ross JS, Wang K, Ali SM, Chumsri S, Elvin JA, Vergilio J-A, Suh J, Yelensky R, Lipson D, Chmielecki J, Miller VA, Stephens PJ. Non-amplification ERBB2 genomic alterations in 5,605 cases of refractory and metastatic breast cancer: An emerging opportunity for anti-HER2 targeted therapies. [abstract]. In: Proceedings of the Thirty-Eighth Annual CTRC-AACR San Antonio Breast Cancer Symposium: 2015 Dec 8-12; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2016;76(4 Suppl):Abstract nr P3-07-05.

Abstract PD6-08: IMAGE: Individualized molecular analyses guide efforts in breast cancer with comprehensive genomic profiling of tissue and plasma tumor DNA

Background: Standard treatment options for patients with metastatic triple negative breast cancer (TNBC) are limited to chemotherapy. Molecular profiling of tumors may allow for novel treatment recommendations.

Methods: We initiated a prospective study designated IMAGE. Women with newly progressing metastatic TNBC who received at least one line of prior chemotherapy were eligible. New metastatic biopsies were obtained for molecular profiling at study entry. Archived metastatic biopsy specimens were allowed if patients had not commenced new systemic therapy. The specimens were reviewed by the study pathologist and stained for ER, PR, HER2, and androgen receptor (AR) by immunohistochemistry. Specimens underwent hybrid-capture based comprehensive genomic profiling (CGP) (Foundation Medicine Inc., Cambridge, MA). Clinical data and genomic profiling reports were reviewed by the GAITWAY (Genomic Alterations in Tumors with Actionable Yields) Molecular Profile Tumor Board. Recommendations were communicated to the treating oncologist and patients were followed for treatment decision and clinical outcomes. Peripheral blood was also analyzed by an investigational assay for circulating plasma tumor DNA (ptDNA) (Foundation Medicine Inc.) at study entry, and when obtainable, from serial blood draws at time of progression. The primary objective was to assess feasibility of completing the process from consent to GAITWAY recommendations within 28 days for at least 80% of patients.

Results: From September 2013 to April 2015, we enrolled 26 eligible women. Median age was 55 (range 25-67); patients identified as white 12 (46%), black 11 (42%), or other 3 (12%); median number of prior lines of treatment was 3; and 65.4% of patients had visceral disease. Twenty (77%) eligible patients received CGP of a metastatic site biopsy. Six patients did not undergo CGP due to either absence of a metastatic site amenable for biopsy or inadequate tissue for CGP. The study met the predefined statistical endpoint for futility and was closed after 20 patients had undergone CGP. Twelve (60%) evaluable patients received treatment recommendations within 28 days of study consent. Failure to meet this time frame was due to difficulties in accessing archival tumor tissue (N=5) and need for additional tissue for molecular analysis (N=3). Preliminary results demonstrate high concordance between mutations in metastatic biopsies and ptDNA in 15/17 patients.

Enrolled in IMAGE26Successful NGS20Potentially actionable mutation identified15GAITWAY recommended targeted therapy as possible next treatment13Received targeted therapy4

Conclusions: CGP of patients with metastatic TNBC can provide additional information that may help direct treatment. However, difficulties in obtaining adequate tumor tissue may hinder this approach. Use of a well-validated ptDNA profiling assay could be an alternative to overcome these limitations.

Citation Format: Parsons HA, Beaver JA, Cimino-Mathews A, Zorzi J, Slater S, Clark T, Lipson D, Ali SM, Kennedy M, Otto GA, Young LE, Jeter S, VanDenBerg DA, Rosner GL, Park BH, Stearns V. IMAGE: Individualized molecular analyses guide efforts in breast cancer with comprehensive genomic profiling of tissue and plasma tumor DNA. [abstract]. In: Proceedings of the Thirty-Eighth Annual CTRC-AACR San Antonio Breast Cancer Symposium: 2015 Dec 8-12; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2016;76(4 Suppl):Abstract nr PD6-08.

Abstract A32: MCL1 gene amplification in breast cancer is associated with TNBC status and can respond to a sorafenib/vorinostat regimen

Background: MCL1 encodes the induced myeloid leukemia cell differentiation protein Mcl-1, a member of the BCL-2 family which functions to inhibit apoptosis. Mcl-1 over-expression has been associated with high tumor grade and adverse prognosis in triple negative breast cancer (TNBC) but therapies specifically leading to inhibition of MCL-1 have not been identified.

Methods: Comprehensive genomic profiling (CGP) using hybridization capture of 3,769 exons from 315 cancer-related genes and 47 introns of 19 genes commonly rearranged in cancer was applied to ≥50ng of DNA extracted from 2,824 consecutive BC and sequenced to high, uniform median coverage (&gt;600X). The original primary BC was assayed in 44% of cases and a sample from a metastatic focus was assayed in 56% of cases.

Results: Of 2824 consecutive BC cases, 200 (7.1%) cases harbored MCL1 amplification. Of these MCL1-amplified cases, 146 (73%) were TNBC and 54 were non-TNBC (p&lt;0.0001). Twelve of the latter cases (22%) were ERBB2 (HER2) amplified and slide-based HER2 status concordance with CGP was 99%. MCL1 amplification was also observed in the TCGA dataset for 32/123 (26%) of TNBC (p=0.008). Of the MCL1 amplified TNBC cases, 88% were high grade and 98% were stage IV at the time of CGP. Genes co-altered within MCL1 amplified TNBC included TP53 (86%), MYC (41%), MYST3 (21%), LYN (20%), CCNE1 (19%), PIK3CA (18%), and AKT3 (15%). Two MCL1 amplified TNBC patients were treated with a multi-drug regimen based on sorafenib and vorinostat and experienced significant clinical benefit.

Conclusions: MCL1 amplification is a frequent feature in advanced stage and high grade TNBC, and correspondingly such MCL1 amplified tumors very seldom harbor co-amplifications of ERBB2. Clinical observation suggests that treatment with sorafenib and vorinostat in heavily pre-treated MCL1 amplified patients may be correlated with clinical benefit, consistent with historic preclinical investigation. These preliminary findings suggest that MCL1 amplified TNBC may be able to benefit from combination targeted therapy, and warrant further systematic investigation.

Citation Format: JS Ross, K Wang, A Johnson, J Watson, C Hatzis, L Pusztai, J Chmielecki, R Yelensky, D Lipson, JA Elvin, J Vergilio, J Suh, VA Miller, K Dicke, PJ Stephens, SM Ali. MCL1 gene amplification in breast cancer is associated with TNBC status and can respond to a sorafenib/vorinostat regimen. [abstract]. In: Proceedings of the AACR Special Conference on Advances in Breast Cancer Research; Oct 17-20, 2015; Bellevue, WA. Philadelphia (PA): AACR; Mol Cancer Res 2016;14(2_Suppl):Abstract nr A32.

Next-generation sequencing reveals frequent consistent genomic alterations in small cell undifferentiated lung cancer

Aims

Small cell lung cancer (SCLC) carries a poor prognosis, and the systemic therapies currently used as treatments are only modestly effective, as demonstrated by a low 5-year survival at only ∼5%. In this retrospective collected from March 2013 to study, we performed comprehensive genomic profiling of 98 small cell undifferentiated lung cancer (SCLC) samples to identify potential targets of therapy not currently searched for in routine clinical practice.

Methods

DNA from 98 SCLC was sequenced to high, uniform coverage (Illumina HiSeq 2500) and analysed for all classes of genomic alterations.

Results

A total of 386 alterations were identified for an average of 3.9 alterations per tumour (range 1–10). Fifty-two (53%) of cases harboured at least 1 actionable alteration with the potential to personalise therapy including base substitutions, amplifications or homozygous deletions in RICTOR (10%), KIT (7%), PIK3CA (6%), EGFR (5%), PTEN (5%), KRAS (5%), MCL1 (4%), FGFR1 (4%), BRCA2, (4%), TSC1 (3%), NF1 (3%), EPHA3 (3%) and CCND1. The most common non-actionable genomic alterations were alterations in TP53 (86% of SCLC cases), RB1 (54%) and MLL2 (17%).

Conclusions

Greater than 50% of the SCLC cases harboured at least one actionable alteration. Given the limited treatment options and poor prognosis of patients with SCLC, comprehensive genomic profiling has the potential to identify new treatment paradigms and meet an unmet clinical need for this disease.

Next-generation sequencing of adrenocortical carcinoma reveals new routes to targeted therapies

Aims

Adrenocortical carcinoma (ACC) carries a poor prognosis and current systemic cytotoxic therapies result in only modest improvement in overall survival. In this retrospective study, we performed a comprehensive genomic profiling of 29 consecutive ACC samples to identify potential targets of therapy not currently searched for in routine clinical practice.

Methods

DNA from 29 ACC was sequenced to high, uniform coverage (Illumina HiSeq) and analysed for genomic alterations (GAs).

Results

At least one GA was found in 22 (76%) ACC (mean 2.6 alterations per ACC). The most frequent GAs were in TP53 (34%), NF1 (14%), CDKN2A (14%), MEN1 (14%), CTNNB1 (10%) and ATM (10%). APC, CCND2, CDK4, DAXX, DNMT3A, KDM5C, LRP1B, MSH2 and RB1 were each altered in two cases (7%) and EGFR, ERBB4, KRAS, MDM2, NRAS, PDGFRB, PIK3CA, PTEN and PTCH1 were each altered in a single case (3%). In 17 (59%) of ACC, at least one GA was associated with an available therapeutic or a mechanism-based clinical trial.

Conclusions

Next-generation sequencing can discover targets of therapy for relapsed and metastatic ACC and shows promise to improve outcomes for this aggressive form of cancer.

Abstract P6-12-07: Prevalence of propionibacterium acnes and bartonella henselae DNA in patients with inflammatory breast cancer (IBC)

Introduction:

Inflammatory breast cancer (IBC) is a very aggressive variant of breast cancer with a poor prognosis.. Mouse Mammary Tumor-associated Virus (MMTV) and other infectious agents have been considered as possible etiological agents of IBC particularly related to the initial description of higher incidence in women living in rural areas in North Africa. The etiological role of bacteria in this disease has never been explored in spite of the evidence that chronic infections with certain bacteria can facilitate tumors development. We retrospectively evaluated tissue samples from patients with recurrent IBC to identify potential bacterial agents that could play a role in the development and progression of the disease.

Methods:

DNA was isolated from formalin-fixed paraffin embedded samples of 24 Inflammatory Breast Cancer (IBC) patients whose specimen had been submitted for genomic analysis using next-genomic sequencing (Foundation One™). An additional 3 non-IBC patients (lymph node, lung metastatic lesions) were included in the study. Unselected DNA libraries from these samples were pooled and sequenced on a HiSeq-2000 sequencer. Comparing the sequence data to a reference of 5,569 bacterial and viral genomic sequences identified the presence of Propionibacterium acnes, Ralstonia pickettii and Methylobacterium consequently, we enriched the DNA libraries for the presence of these species as well as bacterial rRNA genes using hybrid capture with synthesized oligonucleotide baits and sequenced the enriched libraries.

Results:

Twenty three IBC patients and 3 non-IBC breast cancer patients were included in the study. Tissue specimens included, 14 chest wall and skin;6 breast, 2 lymph nodes; 1 liver, 1 lung, 1 pleural fluid, 1 brain. In 16 out of the 23 IBC (70%) of specimens we detected bacteria DNA. Propionibacterium acnes were detected in 12 cases. Bartonella henselae was detected in 1 out of the 23 IBC specimens. Furthermore, additional detected species included Ralstonia pickettii (3 cases) and Pseudomonas aeruginosa (2). No bacteria were detected in samples from non-IBC breast cancer patients.

Conclusions:

In this study, we identified Propionibacterium acnes and Bartonella henselae in samples from IBC patients. The anaerobic Gram-positive bacterium P. acnes is ubiquitously found in sebaceous follicles of the human skin. Recent reports showed that P. acnes was present in a high number of cancerous prostate tissue samples. It has been suggested that P. acnes may be a contributing factor to the initiation or progression of prostate cancer. Bartonella is a Gram-negative bacteria usually associated with cat-scratch disease, urban trench fever, bacillary angiomatosis-peliosis and endocarditis. Some reports that have showed some similarities between cat scratch disease and inflammatory breast cancer. Our results suggested that P. acnes or Bartonella henselae infections might contribute to the clinical and pathological characteristics of IBC, associated with rapid spread of the breast tumor cells through the lymphatic system.

Citation Information: Cancer Res 2013;73(24 Suppl): Abstract nr P6-12-07.

Oncogenic and drug-sensitive NTRK1 rearrangements in lung cancer

We identified new gene fusions in patients with lung cancer harboring the kinase domain of the NTRK1 gene that encodes the high-affinity nerve growth factor receptor (TRKA protein). Both the MPRIP-NTRK1 and CD74-NTRK1 fusions lead to constitutive TRKA kinase activity and are oncogenic. Treatment of cells expressing NTRK1 fusions with inhibitors of TRKA kinase activity inhibited autophosphorylation of TRKA and cell growth. Tumor samples from 3 of 91 patients with lung cancer (3.3%) without known oncogenic alterations assayed by next-generation sequencing or fluorescence in situ hybridization demonstrated evidence of NTRK1 gene fusions.

Comprehensive genomic profiling of epithelial ovarian cancer by next generation sequencing-based diagnostic assay reveals new routes to targeted therapies

OBJECTIVE

Targeted next generation sequencing (NGS) was evaluated for its ability to identify unanticipated targetable genomic alterations (GA) for patients with relapsed ovarian epithelial carcinoma (OC).

METHODS

DNA sequencing was performed for 3320 exons of 182 cancer-related genes and 37 introns of 14 genes frequently rearranged in cancer on indexed, adaptor ligated, hybridization-captured libraries using DNA isolated from FFPE sections from 48 histologically verified relapsed OC specimens. The original primary tumor was sequenced in 26 (54%) of the cases and recurrent/metastatic tumor site biopsies were sequenced in 22 (46%) of the cases. Actionability was defined as: GA that predict sensitivity or resistance to approved or standard therapies or are inclusion or exclusion criteria for specific experimental therapies in NCI registered clinical trials.

RESULTS

There were 38 (80%) serous, 5 (10%) endometrioid, 3 (6%) clear cell, 1 mucinous (2%) and 1 (2%) undifferentiated carcinomas. 141 GA were identified with an average of 2.9 GA (range 0-8) per tumor, of which 67 were actionable for an average of 1.4 actionable GA per patient (range 0-5). 33/48 (69%) of OC patient samples harbored at least one actionable GA. Most common GA were TP53 (79%); MYC (25%); BRCA1/2 (23%); KRAS (16.6%) and NF1 (14.5%). One tumor featured an ERBB2 point mutation. One of 3 (33%) of clear cell tumors featured cMET amplification validated by both FISH and IHC.

CONCLUSIONS

NGS assessment of therapy resistant OC identifies an unexpectedly high frequency of GA that could influence targeted therapy selection for the disease.

Abstract PD02-07: Next-generation sequencing of FFPE breast cancers demonstrates high concordance with FISH in calling HER2 amplifications and commonly detects other clinically relevant genomic alterations

Background: As more therapies targeting genomic alterations become available, next-generation sequencing (NGS) is increasingly performed in tumor types where mutational status may drive treatment choice. In addition to its ability to identify base substitutions, insertions and deletions across entire exons, NGS can detect relevant copy number changes such as amplification of HER2 in breast tumors. However, for NGS to be clinically applicable, it must reliably analyze FFPE tumor samples and show concordance with the best current diagnostic methods.

Methods: To confirm a clinical role for NGS in detecting copy number alterations, we identified 35 FFPE invasive breast carcinomas previously tested for HER2 status by FISH, including 15 HER2 positives (≥7 copies) and 20 HER2 negatives (&lt;4 copies) and sequenced 3,230 exons of 182 cancer genes including HER2, in a CLIA certified lab (Foundation Medicine). Average coverage depth of &gt;900X uniquely-mapping reads was obtained. Sequence data were analyzed for HER2 copy number (blinded to FISH results) based on a statistical model using allele frequencies and coverage depth of HER2 exons versus a process-matched normal control, classifying cases as HER2 positive (≥6 average copies), HER2 negative (&lt;4 copies), intermediate (4–5 copies) or unknown (&lt;20% tumor purity). The data were also analyzed for additional clinically relevant genomic alterations.

Results: High concordance was noted between HER2 copy number status determined by FISH and NGS: 30 of the 35 samples were classified as positive or negative by NGS, 1 was classified as intermediate and 4 as unknown due to low purity. Using FISH as a gold standard, NGS HER2 calls demonstrated an accuracy of 97% (29/30, 95% CI 83–99%), 93% sensitivity (13/14, 95% CI 69–99%) and 100% specificity (16/16, 95% CI 81–100%). One discordant case was noted (FISH positive, NGS negative). Furthermore, NGS revealed 70 additional alterations (38 base substitutions, 10 insertions/deletions, 22 copy number alterations) in 23 cancer genes (an average of 2.0 alterations per sample). Genomic alterations that predict sensitivity or resistance to approved or experimental targeted therapies and thus plausibly guide treatment decisions were found in 69% of patients. These include PIK3CA (16 cases, PI3 kinase/mTOR inhibitors), PTEN (3 cases, PI3K/AKT/mTOR inhibitors), KRAS (1 case, resistance to cetuximab and panitumumab), and NF1 (1 case, mTOR/MAPK inhibitors) plus amplifications of CCND1 (4 cases, CDK4 inhibitors), FGFR1 (3 cases, FGF inhibitors) and MCL1 (3 cases, BCL-2 inhibitors, resistance to anti-tubulin therapies). Four cases included co-amplification of RARA with HER2.

Conclusions: We conclude that HER2 status can be reliably determined by NGS on FFPE breast cancers and that NGS uncovers additional actionable genomic alterations that could impact disease management in a high proportion of patients. Further evaluation of NGS as a guide to therapy in breast cancer is warranted.

Citation Information: Cancer Res 2012;72(24 Suppl):Abstract nr PD02-07.

Chromosomal aberrations and gene expression profiles in non-small cell lung cancer

Alterations in genomic content and changes in gene expression levels are central characteristics of tumors and pivotal to the tumorigenic process. We analyzed 23 non-small cell lung cancer (NSCLC) tumors by array comparative genomic hybridization (array CGH). Aberrant regions identified included well-characterized chromosomal aberrations such as amplifications of 3q and 8q and deletions of 3p21.31. Less frequently identified aberrations such as amplifications of 7q22.3-31.31 and 12p11.23-13.2, and previously unidentified aberrations such as deletion of 11q12.3-13.3 were also detected. To enhance our ability to identify key acting genes residing in these regions, we combined array CGH results with gene expression profiling performed on the same tumor samples. We identified a set of genes with concordant changes in DNA copy number and expression levels, i.e. overexpressed genes located in amplified regions and underexpressed genes located in deleted regions. This set included members of the Wnt/beta-catenin pathway, genes involved in DNA replication, and matrix metalloproteases (MMPs). Functional enrichment analysis of the genes both overexpressed and amplified revealed a significant enrichment for DNA replication and repair, and extracellular matrix component gene ontology annotations. We verified the changes in expressions of MCM2, MCM6, RUVBL1, MMP1, MMP12 by real-time quantitative PCR. Our results provide a high resolution map of copy number changes in non-small cell lung cancer. The joint analysis of array CGH and gene expression analysis highlights genes with concordant changes in expression and copy number that may be critical to lung cancer development and progression.

Two-state allosteric behavior in a single-domain signaling protein

Protein actions are usually discussed in terms of static structures, but function requires motion. We find a strong correlation between phosphorylation-driven activation of the signaling protein NtrC and microsecond time-scale backbone dynamics. Using nuclear magnetic resonance relaxation, we characterized the motions of NtrC in three functional states: unphosphorylated (inactive), phosphorylated (active), and a partially active mutant. These dynamics are indicative of exchange between inactive and active conformations. Both states are populated in unphosphorylated NtrC, and phosphorylation shifts the equilibrium toward the active species. These results support a dynamic population shift between two preexisting conformations as the underlying mechanism of activation.

Gene expression and amplification in breast carcinoma cells with intrinsic and acquired doxorubicin resistance

The multidrug resistance (MDR) phenotype is a major cause of cancer treatment failure. Here the expressions of 4224 genes were analysed for association with intrinsic or acquired doxorubicin (DOX) resistance. A cluster of overexpressed genes related to DOX resistance was observed. Included in this cluster was ABCB1 the P-glycoprotein transporter protein gene and MMP1 (Matrix Metalloproteinase 1), indicative of the invasive nature of resistant cells, and the oxytocin receptor (OXTR), a potential new therapeutic target. Overexpression of genes associated with xenobiotic transformation, cell transformation, cell signalling and lymphocyte activation was also associated with DOX resistance as was estrogen receptor negativity. In all carcinoma cells, compared with HBL100 a putatively normal breast epithelial cell line, a cluster of overexpressed genes was identified which included several keratins, in particular keratins 8 and 18 which are regulated through the ras signalling pathway. Analysis of genomic amplifications and deletions revealed specific genetic alterations common to both intrinsic and acquired DOX resistance including ABCB1, PGY3 (ABCB4) and BAK. The findings shown here indicate new possibilities for the diagnosis of DOX resistance using gene expression, and potential novel therapeutic targets for pharmacological intervention.

Localization of needle tip with color doppler during pericardiocentesis: In vitro validation and initial clinical application

This study evaluates a new device that uses color Doppler ultrasonography to enable real-time image guidance of the aspirating needle, which has not been possible until now. The ColorMark device (EchoCath Inc, Princeton, NJ) induces high-frequency, low-amplitude vibrations in the needle to enable localization with color Doppler. We studied this technique in 25 consecutive patients undergoing pericardiocentesis, and in vitro, in a urethane phantom with which the accuracy of color Doppler localization of the needle tip was compared with that obtained by direct measurement. Tip localization was excellent in vitro; errors axial to the ultrasound beam (velocity Doppler -0.13 +/- 0.90 mm, power Doppler -0.05 +/- 1.7 mm) were less than lateral errors (velocity -0.36 +/- 1.8 mm, power -0.02 +/- 2.8 mm). In 18 of 25 patients, the needle was identified and guided into the pericardial space with the ColorMark technique, and it allowed successful, uncomplicated drainage of fluid. Initial failures were the result of incorrect settings on the echocardiographic machine and inappropriate combinations of the needle puncture site and imaging window. This study demonstrates a novel color Doppler technique that is highly accurate at localizing a needle tip. The technique is feasible for guiding pericardiocentesis. Further clinical validation of this technique is required.

Globalization and health: a framework for analysis and action

Globalization is a key challenge to public health, especially in developing countries, but the linkages between globalization and health are complex. Although a growing amount of literature has appeared on the subject, it is piecemeal, and suffers from a lack of an agreed framework for assessing the direct and indirect health effects of different aspects of globalization. This paper presents a conceptual framework for the linkages between economic globalization and health, with the intention that it will serve as a basis for synthesizing existing relevant literature, identifying gaps in knowledge, and ultimately developing national and international policies more favourable to health. The framework encompasses both the indirect effects on health, operating through the national economy, household economies and health-related sectors such as water, sanitation and education, as well as more direct effects on population-level and individual risk factors for health and on the health care system. Proposed also is a set of broad objectives for a programme of action to optimize the health effects of economic globalization. The paper concludes by identifying priorities for research corresponding with the five linkages identified as critical to the effects of globalization on health.

Multifiber, multiwavelength, fiber optic fluorescence spectrophotometer

A fiberoptic spectrofluorimeter was constructed capable of remote operation of up to 18 biosensors under fully automated, multiplexed control. Excitation and emission wavelengths were separately adjustable, as were optical bandwidths, signal gain, phase, integration time, and illumination duty cycle. Synchronous demodulation was used to enhance signal-to-noise ratio and allow operation under ambient lighting conditions. Detection limit for aqueous sodium-fluorescein was below 1 ng/mL at greater than unity signal-to-noise ratio, with effective sampling volumes less than 0.02 microL. The fluorimeter showed characteristics fiberoptic sampling behavior with asymptotic nonzero signal magnitudes under increasing pathlength conditions.

Excess tachycardia: heart rate after antimuscarinic agents in conscious dogs

In conscious dogs the heart rate after atropine is higher than after bilateral vagotomy; we have termed the additional heart rate with atropine "excess tachycardia" (ET). In six dogs the cervical vagosympathetic trunks were exteriorized in skin tubes, and arterial and venous catheters were chronically implanted. Atropine sulfate (0.1 mg/kg iv) injected during cold blockade of the vagi increased the heart rate by only 6 +/- 4 (SE) beats/min (NS) but rewarming the vagi in five of the six dogs after atropine resulted in an additional heart rate increase (ET) of 26 +/- 6 beats/min (P less than 0.005). The ET (41 +/- 11 beats/min) tended to be larger when the animals were pretreated with 1 mg/kg propranolol (P = 0.09). Similar results were obtained when atropine methylbromide, a charged derivative of atropine sulfate, or glycopyrrolate, a synthetic antimuscarinic agent, was substituted for atropine sulfate (ET: 51 +/- 6 and 51 +/- 16 beats/min, respectively). Raising the arterial blood pressure with phenylephrine increased the heart rate further; lowering the blood pressure with sodium nitroprusside attenuated or abolished the ET. Our results show that ET is produced by antimuscarinic agents in general and is not mediated by the beta-adrenergic system. Furthermore, ET is present only when the cervical vagi are intact, probably because ET is mediated by cholinergic vagal efferent fibers via a mechanism that has not yet been recognized in cardiac rate control.

Opposing central and peripheral effects of atropine on parasympathetic cardiac control

Cardiac vagal efferent (CVE) activity was recorded from fine strands of the cervical vagus of chloralose-urethane-anesthetized dogs weighing an average of 14.6 kg. In spontaneously breathing animals atropine sulfate in doses of 0.003-1.5 mg significantly increased CVE activity even when the activity was corrected for changes in blood pressure. A 50% average increase (P less than 0.001) in mean activity was observed at a dose of 0.15 mg. The increase was not abolished by vagotomy as long as the animals were allowed to breathe spontaneously. The peripheral effect of atropine was characterized by the relationship between CVE activity and measured heart period changes. A 50% peripheral blockade was achieved at a dose of 0.06 mg; a dose of 1.0 mg produced essentially complete (greater than 90%) blockade. The results quantitatively demonstrate that atropine exerts a powerful central stimulating effect on CVE activity while simultaneously blocking vagal heart rate effects at the periphery.

A method of closed-chest cannulation of the left atrium for left atrial-femoral artery bypass

A large-bore polyvinyl catheter was devised for passage into the left atrium by means of a modified transseptal catheterization technique. This was performed without difficulty using both pulsatile and nonpulsatile bypass in the closed-chest animal as well as in 3 terminally ill patients. Blood was drained from the left atrium and returned to the femoral artery through an extracorporeal circuit. The shock syndrome produced by coronary embolization in dogs was successfully managed in this fashion. The results of the clinical trials were encouraging. Assisted left heart circulation using a closed-chest left atrial-femoral artery bypass seems feasible by this technique.