SummaryWeight loss follows when adult humans enter a phase of negative energy balance brought about by reducing energy intake and/or increasing energy expenditure. The weight loss period is usually viewed as a continuous process, ending when energy equilibrium is achieved at a lower weight or with death following depletion of fuel stores. However, growing evidence supports the expanded view that induction of negative energy balance leads to well-defined physiological effects characterized by three discrete phases (I-III). At present there are no comprehensive reviews of the 'early' phase of weight loss, a gap highlighted by recent interest in rapidly testing new treatments with short-term protocols. Herein we show from earlier reports and with new data that weight loss during phase I is: mathematically quantifiable with a t 1/2 < 1-week and 4-to 6-week duration; includes well-defined rapidly evolving body composition and energy expenditure changes; and is moderated by multiple factors including subject sex and activity level, nutrients ingested at baseline and during the negative energy balance period, and hormone and pharmacologic treatments. Our in depth review collectively characterizes phase I as a distinct weight loss period while revealing important knowledge gaps that can be filled with appropriately designed future studies.
This chapter summarizes recent research on the biology of reactive oxygen species (ROS). The chapter is focused on the bimodal actions of ROS, which can be summarized as both beneficial and negative. The beneficial aspects of ROS are related to their effects on the redox state of cells and the important role that some ROS play in signaling cascade. The detrimental effects of ROS are related excess amounts of these chemical moieties, which are caused by excessive production and/or insufficient actions of endogenous antioxidants. The generation of these species is also discussed.
ObjectivesTo evaluate the safety, tolerability, pharmacokinetics (PK) and pharmacodynamics (PD) of single-dose and multiple-dose administration of AMG 557, a human anti-inducible T cell co-stimulator ligand (ICOSL) monoclonal antibody, in subjects with systemic lupus erythematosus (SLE).MethodsPatients with mild, stable SLE (n=112) were enrolled in two clinical trials to evaluate the effects of single (1.8–210 mg subcutaneous or 18 mg intravenous) and multiple (6 –210 mg subcutaneous every other week (Q2W)×7) doses of AMG 557. Subjects received two 1 mg intradermal injections 28 days apart of keyhole limpet haemocyanin (KLH), a neoantigen, to assess PD effects of AMG 557. Safety, PK, target occupancy, anti-KLH antibody responses, lymphocyte subset analyses and SLE-associated biomarkers and clinical outcomes were assessed.ResultsAMG 557 demonstrated an acceptable safety profile. The PK properties were consistent with an antibody directed against a cell surface target, with non-linear PK observed at lower concentrations and linear PK at higher concentrations. Target occupancy by AMG 557 was dose dependent and reversible, and maximal occupancy was achieved in the setting of this trial. Anti-AMG 557 antibodies were observed, but none were neutralising and without impact on drug levels. A significant reduction in the anti-KLH IgG response was observed with AMG 557 administration without discernible changes in the anti-KLH IgM response or on the overall IgG levels. No discernible changes were seen in lymphocyte subsets or in SLE-related biomarkers and clinical measures.ConclusionsThe selective reduction in anti-KLH IgG demonstrates a PD effect of AMG 557 in subjects with SLE consistent with the biology of the ICOS pathway and supports further studies of AMG 557 as a potential therapeutic for autoimmune diseases.Trial registration numbersNCT02391259 and NCT00774943.
The pharmacokinetics (PK) and pharmacodynamics (PD) of omarigliptin, a novel once‐weekly DPP‐4 inhibitor, were assessed following single and multiple doses in healthy subjects. Absorption was rapid, and food did not influence single‐dose PK. Accumulation was minimal, and steady state was reached after 2 to 3 weeks. Weekly (area under the curve) AUC and Cmax displayed dose proportionality within the dose range studied at steady state. The average renal clearance of omarigliptin was ∼2 L/h. DPP‐4 inhibition ranged from ∼77% to 89% at 168 hours following the last of 3 once‐weekly doses over the dose range studied. Omarigliptin resulted in ∼2‐fold increases in weighted average postprandial active GLP‐1. Omarigliptin acts by stabilizing active GLP‐1, which is consistent with its mechanism of action as a DPP‐4 inhibitor. Administration of omarigliptin was generally well tolerated in healthy subjects, and both the PK and PD profiles support once‐weekly dosing. A model‐based assessment of QTc interval risk from the single ascending dose study predicted a low risk of QTc prolongation within the likely clinical dose range, a finding later confirmed in a thorough QT trial.
Pretransplant autoantibodies to LG3 and angiotensin II type 1 receptors (AT1R) are associated with acute rejection in kidney transplant recipients, whereas antivimentin autoantibodies participate in heart transplant rejection. Ischemia-reperfusion injury (IRI) can modify self-antigenic targets. We hypothesized that ischemia-reperfusion creates permissive conditions for autoantibodies to interact with their antigenic targets and leads to enhanced renal damage and dysfunction. In 172 kidney transplant recipients, we found that pretransplant anti-LG3 antibodies were associated with an increased risk of delayed graft function (DGF). Pretransplant anti-LG3 antibodies are inversely associated with graft function at 1 year after transplantation in patients who experienced DGF, independent of rejection. Pretransplant anti-AT1R and antivimentin were not associated with DGF or its functional outcome. In a model of renal IRI in mice, passive transfer of anti-LG3 IgG led to enhanced dysfunction and microvascular injury compared with passive transfer with control IgG. Passive transfer of anti-LG3 antibodies also favored intrarenal microvascular complement activation, microvascular rarefaction and fibrosis after IRI. Our results suggest that anti-LG3 antibodies are novel aggravating factors for renal IRI. These results provide novel insights into the pathways that modulate the severity of renal injury at the time of transplantation and their impact on long-term outcomes.
Nusinersen is an antisense oligonucleotide approved for the treatment of spinal muscular atrophy. The drug is given intrathecally at 12 mg, beginning with 3 loading doses at 2-week intervals, a fourth loading dose 30 days thereafter, and maintenance doses at 4-month intervals. This population pharmacokinetic model was developed to clarify how to maintain targeted nusinersen exposure after an unforeseen one-time delay or missed dose. Simulations demonstrated that the impact of a one-time delay in dosing or a missed dose on median cerebrospinal fluid exposures depended on duration of interruption and the regimen phase in which it occurred. Delays in loading doses delayed reaching the peak trough concentration by approximately the duration of the interruption. Resumption of the regimen as soon as possible resulted in achieving steady state trough concentration upon completion of the loading phase. A short delay (30-90 days) during the maintenance phase led to prolonged lower median cerebrospinal fluid concentration if all subsequent doses were shifted by the same 4-month interval. However, administration of the delayed dose, followed by the subsequent dose as originally scheduled, rapidly restored trough concentration. If a dose must be delayed, patients should return to the original dosing schedule as soon as possible.
The effect of hepatic impairment on lopinavir/ritonavir pharmacokinetics was investigated. Twenty-four HIV-1-infected subjects received lopinavir 400 mg/ritonavir 100 mg twice daily prior to and during the study: 6 each with mild or moderate hepatic impairment (and hepatitis C virus coinfected) and 12 with normal hepatic function. Mild and moderate hepatic impairment showed similar effects on lopinavir pharmacokinetics. When the 2 hepatic impairment groups were combined, lopinavir Cmax and AUC12 were increased 20% to 30% compared to the controls. Hepatic impairment increased unbound lopinavir AUC12 by 68% and Cmax by 56%. The effect of hepatic impairment on low-dose ritonavir pharmacokinetics was more pronounced in the moderate impairment group (181% and 221% increase in AUC12 and Cmax, respectively) than in the mild impairment group (39% and 61% increase in AUC12 and Cmax, respectively). While lopinavir/ritonavir dose reduction is not recommended in subjects with mild or moderate hepatic impairment, caution should be exercised in this population.
Background Denintuzumab mafodotin (SGN-CD19A) is a novel antibody-drug conjugate (ADC) composed of a humanized anti-CD19 monoclonal antibody conjugated to the microtubule-disrupting agent monomethyl auristatin F (MMAF) via a maleimidocaproyl linker. CD19 is a B-cell-specific marker expressed in the vast majority of patients (pts) with B-cell non-Hodgkin lymphoma (NHL). Methods An ongoing phase 1, dose-escalation study is investigating the safety, tolerability, pharmacokinetics (PK), and antitumor activity of denintuzumab mafodotin in pts with relapsed or refractory (R/R) B-cell NHL (NCT 01786135). Eligible pts were ≥12 yrs of age and were R/R to ≥1 prior systemic regimens; pts with diffuse large B-cell lymphoma (DLBCL) or follicular lymphoma grade 3 (FL3) also received intensive salvage therapy ± autologous stem cell transplant (ASCT), unless they refused or were ineligible. Denintuzumab mafodotin was administered IV every 3 weeks (q3wk; 0.5-6 mg/kg) for dose escalation and every 6 weeks (q6wk; 3 mg/kg) in a subsequent expansion cohort. A modified continual reassessment method was used for dose allocation and maximum tolerated dose (MTD) estimation in the q3wk dosing schedule. Archived tissue was collected to assess potential biomarkers of response. Results To date, 62 pts have been treated, including 53 pts (85%) with DLBCL (of whom 16 had transformed DLBCL), 5 (8%) with mantle cell lymphoma, and 3 (5%) with FL3. Median age was 65 yrs (range, 28-81). Pts had received a median of 2 prior systemic therapies (range, 1-6); 15 pts (24%) had prior ASCT. Thirty-seven pts (60%) were refractory to the most recent prior therapy. Fifty-two pts were treated in the q3wk schedule (0.5-6 mg/kg), and 10 pts were treated with 3 mg/kg q6wk. Five pts remain on treatment (2 q3wk pts, 3 q6wk pts). Overall, 20 (33%) of 60 efficacy-evaluable pts achieved objective responses, including 13 (22%) with CRs. Eighteen of the 20 objective responses were achieved by the end of Cycle 2 (15 q3wk pts, 3 q6wk pts). Table.Q3wk Dosing (N=51)Q6wk Dosing (N=9)RelapsedaN=22RefractorybN=29RelapsedaN=3RefractorybN=6Best clinical response, n (%)Complete remission (CR)7 (32)3 (10)3 (100)-Partial remission (PR)4 (18)3 (10)--Stable disease (SD)6 (27)7 (24)-3 (50)Progression5 (23)16 (55)-3 (50)ORR (CR+PR), % (95% CI)50 (28, 72)21 (8, 40)100 (29, 100)-CR rate, % (95% CI)32 (14,55)10 (2, 27)100 (29, 100)-ORR=objective response rateaBest response of CR/PR with most recent prior therapybBest response of SD/PD with most recent prior therapy Median duration of objective response in the q3wk schedule was 39 wks for relapsed pts (95% CI: 11.6, - [range, 0.1+ to 73+ wks]) and 41 wks for refractory pts (95% CI: 13.7, 67 [range, 13.7 to 67 wks]); this included 2 pts who maintained their responses for >15 mos. Data for the q6wk schedule are not yet mature. The MTD was not reached at 0.5-6 mg/kg q3wk, and only 1 DLT was observed (G3 keratopathy at 3 mg/kg). Toxicity profiles were similar across both dosing schedules; the most frequently reported adverse events (AEs) were blurry vision (65%), dry eye (52%), fatigue and keratopathy (35% each), constipation (29%), photophobia (27%), and nausea (26%). Ocular symptoms and corneal exam findings consistent with superficial microcystic keratopathy were observed in 52 pts (84%); symptoms were less severe than the associated corneal exam findings. Keratopathy was managed with topical steroids and dose modifications, and improved/resolved within a median of ~5 wks (range, 1-17) in pts for whom there was sufficient follow-up. ADC PK demonstrated a mean terminal half-life of ~2 wks, and accumulation was observed following multiple dose administrations in both schedules. Conclusions Denintuzumab mafodotin is generally well tolerated and demonstrates encouraging activity with durable responses in heavily pre-treated pts with B-cell NHL. In relapsed pts, 56% achieved objective responses with a CR rate of 40% across both the q3wk and q6wk schedules. The low rate of myelosuppression and neuropathy suggests that denintuzumab mafodotin could be incorporated into novel combination regimens in earlier lines of therapy. A randomized phase 2 trial is being initiated to evaluate RICE (rituximab, ifosfamide, carboplatin, etoposide) ± denintuzumab mafodotin pre-ASCT as second-line treatment for pts with DLBCL. Disclosures Moskowitz: Seattle Genetics, Inc.: Consultancy, Research Funding; Merck: Research Funding; Genentech: Research Funding. Off Label Use: Denintuzumab mafodotin (SGN-CD19A) is not approved for use.. Fanale:Seattle Genetics, Inc.: Consultancy, Honoraria, Other: Travel expenses, Research Funding. Shah:Janssen: Speakers Bureau; Seattle Genetics: Research Funding; DeBartolo Institute for Personlaized Medicine: Research Funding; Rosetta Genomics: Research Funding; Acetylon Pharmaceuticals, INC: Membership on an entity's Board of Directors or advisory committees; Plexus Communications: Honoraria; Spectrum: Speakers Bureau; Pharmacyclics: Speakers Bureau; Bayer: Honoraria; Celgene: Consultancy, Membership on an entity's Board of Directors or advisory committees, Speakers Bureau; SWOG: Consultancy; NCCN: Consultancy. Chen:Genentech: Consultancy, Speakers Bureau; Millennium: Consultancy, Research Funding, Speakers Bureau; Seattle Genetics, Inc.: Consultancy, Other: Travel expenses, Research Funding, Speakers Bureau. Kim:Bayer: Consultancy; Seattle Genetics, Inc.: Consultancy, Research Funding; Eli Lilly: Consultancy. Kostic:Seattle Genetics, Inc.: Employment, Equity Ownership. Liu:Seattle Genetics, Inc.: Employment, Equity Ownership, Other: Travel expenses. Peng:Seattle Genetics, Inc.: Employment, Equity Ownership. Forero-Torres:Seattle Genetics, Inc.: Research Funding.
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