Activation of Classical Complement Pathway by Naturally Occurring Heteroantibodies in Normal Rabbit Serum. Effect on Subpopulations of Human Lymphoid Cells

Heteroantibodies present in normal rabbit serum (NRS) are toxic to human B lymphocytes, T lymphocytes, and monocytes. Even NRS, which exhibits little back ground cytotoxicity for human lymphoid cells in conventional HLA or B-cell lymphocytotoxic assays, can be shown to contain considerable activity by making two modifications in usual procedures: by washing cells in saline or balanced salt solutions devoid of protein or sugar substances, and by increasing incubation time for 1 h to 3--4 h. Using such modifications, the cytotoxic activity of NRS towards human lymphoid cells was investigated and was found to involve activation of the classical complement pathway rather than activation of the alternate complement pathway. Residual unwanted background cytotoxicity of NRS toward human lymphoid cells can be decreased without loss of desired complement activity either by heating NRS for 15 min at 50 degrees C or by mixing NRS with small amounts of normal human serum.     

Thymus involution in the acquired immunodeficiency syndrome

Acquired immunodeficiency syndrome (AIDS) is a severe disorder of unknown etiology and pathogenesis, predominantly affecting homosexual males and other high-risk groups and characterized by profound alterations in T-lymphocyte function. The authors have examined thymus tissue from 14 patients who died of AIDS and compared the results with findings in five control groups: healthy age-matched controls, elderly individuals, patients with chronic or debilitating illnesses other than AIDS, infants with conditions causing "stress atrophy," and patients with myasthenia gravis. The AIDS group included 11 homosexual males, 1 Haitian, 1 homosexual who was also a drug abuser, and a 10-month-old infant believed to have contracted AIDS following blood transfusion. All the AIDS cases showed marked thymus involution with severe depletion of both lymphocytes and epithelial elements. The latter component consisted primarily of thin cords and nests of primitive-appearing epithelial cells that could be defined by positive immunohistochemical staining for keratin. Many cases showed a variable plasma cell infiltration, and the majority exhibited distinct vascular changes in the form of hyalinization and/or onion-skin patterns, primarily in the adventitia. Most striking of all was the marked paucity of Hassall's corpuscles; four patients had none at all, while in the other ten patients all the Hassall's corpuscles were calcified. These changes were far more extensive than those seen in any of the control groups, which retained most of their complement of Hassall's corpuscles even in the face of marked overall involution. The physiologic function of Hassall's corpuscles is not known, but recent immunohistochemical studies have implicated them in the synthesis of "facteur thymique serique" (FTS, thymulin) and other thymic hormones known to play a role in regulating T-helper and suppressor cell activity. It is conceivable that the extensive destruction of Hassall's corpuscles observed in AIDS may be a crucial element in the pathogenesis of this syndrome.     

“Porcupine” polymers and double-star polymers

Anionic block copolymerization of styrene and divinylbenzene is known to lead to the formation of star-shaped macromolecules. This “arm-first” method has been widely used and studied. The present paper is devoted to two special aspects of this method: The first is concerned with the efficiency of the protection exerted by the arms on the crosslinked core, preventing gelation of the reaction medium. A number of “porcupine” polymers involving bulky cores, fitted with a large number of arms, were synthesized and characterized. The second deals with the possibility of using the “living” carbanionic sites present in the cores, either for purpose of functionalization, or to grow new branches from the core. The presence of remaining unsaturations in the core was evidenced. This is a drawback, since the possibility for “transverse” bonds to be formed results in couplings, inducing gelation.     

Catalytic degradation of Orange II in aqueous solution using diatomite-supported bimetallic Fe/Ni nanoparticles

A functional diatomite-supported Fe/Ni nanocomposite successfully remediated Orange II contaminant in aqueous solution. The hypothesis was that diatomite-supported Fe/Ni would not only be more effective than Fe/Ni but also require less metallic loading to effect the catalytic reaction. Batch experiments indicate that 99.00% of Orange II was removed using diatomite-supported Fe/Ni, while only 86.64 and 3.59% of Orange II were removed using bimetallic Fe/Ni nanoparticles and diatomite, after 6 h of reaction, respectively. Characterisation by X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), transmission electron microscopy (TEM) and scanning electron microscopy (SEM) indicates that the use of diatomite as a support material reduced the aggregation of bimetallic Fe/Ni nanoparticles, thereby resulting in an enhancement in the reactivity. A synergistic mechanism for the removal of Orange II by diatomite-supported Fe/Ni was proposed which involves adsorption, followed by catalytic reduction. This study has demonstrated that diatomite may be a suitable support material for stabilizing and dispersing bimetallic Fe/Ni nanoparticles and the resulting diatomite-supported Fe/Ni composite could be a promising catalyst for the remediation of dye-contaminated wastewater.

A functional diatomite-supported Fe/Ni nanocomposite successfully remediated Orange II contaminant in aqueous solution.     

Membrane receptors and their redistribution in lymphoproliferative disorders.

Lymphoid cells from 20 patients with lymphoproliferative disorders, including chronic lymphocytic leukemia, hairy cell leukemia, Sezary syndrome, lymphoma, and lymphadenitis, were studied for redistribution of surface membrane immunoglobulins (SmIg) and concanavalin A (Con-A) receptors. Fluorescein-labeled polyvalent goat anti-human immunoglobulin and fluoresceinated concanavalin A were used as ligands. Results were similar with both ligands. The highest percentage of capping of ligand-membrane receptors was noted in mononuclear cells from patients with "hairy" cell leukemia: from 24% to 90%. These cells showed moderate to marked fluorescein activity and were able to cap within 15 min at 4 degrees C. Chronic lymphocytic leukemia cells showed a weak fluorescein stain with a very low percentage of cells (0%--16%) capping. Lymph node cells from patients with lymphoma demonstrated moderate to strong fluorescein activity with only an average of 3% of the cells capping; while lymphoid cells from patients with lymphaedenitis showed an average of 27.5% capping and moderate fluorescein activity. Capping of Con-A receptors in mononuclear cells from patients with Sezary syndrome was poor (0%--14%) with moderate fluorescein intensity. This report demonstrates difference in density and mobility of binding sites for SmIg and Con-A on the surface membrane of lymphoid cells from various subclasses of lymphoproliferative disorders. These differences may assist in the differential diagnosis and classification of these conditions.     

Discrete Choice Experiment to Estimate Breast Cancer Patients’ Preferences and Willingness to Pay for Prophylactic Granulocyte Colony-Stimulating Factors

ObjectivesRising out-of-pocket costs for cancer patients have increased shared decision making. Clinical guidelines recommend prophylactic granulocyte colony-stimulating factor (G-CSF) for patients receiving chemotherapy with a 20% or greater risk of febrile neutropenia. A discrete choice experiment was conducted to explore breast cancer patients’ preferences and willingness to pay (WTP) for prophylactic G-CSF to decrease the risk of chemotherapy-induced febrile neutropenia.MethodsAn online discrete choice experiment questionnaire survey of a national US convenience sample of self-reported breast cancer patients with prior chemotherapy treatment was conducted. Sixteen paired G-CSF treatment scenarios, each with four attributes (risk of disruption to chemotherapy schedule due to low white blood cell counts, risk of developing an infection requiring hospitalization, frequency of administration, and total out-of-pocket cost) were presented with a follow-up “no treatment” option. Participant preferences and WTP out of pocket were estimated by logistic regression.ResultsParticipants (n = 296) preferred G-CSF regimens with lower out-of-pocket costs, lower risk of chemotherapy disruption, lower risk of infection, and greater convenience (one G-CSF injection per chemotherapy cycle). Participants’ WTP was $1076 out of pocket per cycle to reduce the risk (high to low) of disrupting their chemotherapy schedule, $884 per cycle to reduce the risk (24% [high] to 7% [low]) of infection, and $851 per cycle to decrease the number of G-CSF injections (11 to 1) per cycle.ConclusionsParticipants highly valued specific features of prophylactic G-CSF treatment including maintaining their chemotherapy schedule, lowering their risk of infection, and reducing the number of injections. Physicians should consider patient preferences to inform the best treatment choices for individual patients.     

Protective hinge in insulin opens to enable its receptor engagement

Insulin provides a classical model of a globular protein, yet how the hormone changes conformation to engage its receptor has long been enigmatic. Interest has focused on the C-terminal B-chain segment, critical for protective self-assembly in β cells and receptor binding at target tissues. Insight may be obtained from truncated “microreceptors” that reconstitute the primary hormone-binding site (α-subunit domains L1 and αCT). We demonstrate that, on microreceptor binding, this segment undergoes concerted hinge-like rotation at its B20-B23 β-turn, coupling reorientation of Phe^B24 to a 60° rotation of the B25-B28 β-strand away from the hormone core to lie antiparallel to the receptor''s L1–β₂ sheet. Opening of this hinge enables conserved nonpolar side chains (Ile^A2, Val^A3, Val^B12, Phe^B24, and Phe^B25) to engage the receptor. Restraining the hinge by nonstandard mutagenesis preserves native folding but blocks receptor binding, whereas its engineered opening maintains activity at the price of protein instability and nonnative aggregation. Our findings rationalize properties of clinical mutations in the insulin family and provide a previously unidentified foundation for designing therapeutic analogs. We envisage that a switch between free and receptor-bound conformations of insulin evolved as a solution to conflicting structural determinants of biosynthesis and function.How insulin engages the insulin receptor has inspired speculation ever since the structure of the free hormone was determined by Hodgkin and colleagues in 1969 (1, 2). Over the ensuing decades, anomalies encountered in studies of analogs have suggested that the hormone undergoes a conformational change on receptor binding: in particular, that the C-terminal β-strand of the B chain (residues B24–B30) releases from the helical core to expose otherwise-buried nonpolar surfaces (the detachment model) (3–6). Interest in the B-chain β-strand was further motivated by the discovery of clinical mutations within it associated with diabetes mellitus (DM) (7). Analysis of residue-specific photo–cross-linking provided evidence that both the detached strand and underlying nonpolar surfaces engage the receptor (8).The relevant structural biology is as follows. The insulin receptor is a disulfide-linked (αβ)₂ receptor tyrosine kinase (Fig. 1A), the extracellular α-subunits together binding a single insulin molecule with high affinity (9). Involvement of the two α-subunits is asymmetric: the primary insulin-binding site (site 1^*) comprises the central β-sheet (L1–β₂) of the first leucine-rich repeat domain (L1) of one α-subunit and the partially helical C-terminal segment (αCT) of the other α-subunit (Fig. 1A) (10). Such binding initiates conformational changes leading to transphosphorylation of the β-subunits’ intracellular tyrosine kinase (TK) domains. Structures of wild-type (WT) insulin (or analogs) bound to extracellular receptor fragments were recently described at maximum resolution of 3.9 Å (11), revealing that hormone binding is primarily mediated by αCT (receptor residues 704–719); direct interactions between insulin and L1 were sparse and restricted to certain B-chain residues. On insulin binding, αCT was repositioned on the L1–β₂ surface, and its helix was C-terminally extended to include residues 711–714. None of these structures defined the positions of C-terminal B-chain residues beyond B21. Support for the detachment model was nonetheless provided by entry of αCT into a volume that would otherwise be occupied by B-chain residues B25–B30 (i.e., in classical insulin structures; Fig. 1B) (11).Open in a separate windowFig. 1.Insulin B-chain C-terminal β-strand in the μIR complex. (A) Structure of apo-receptor ectodomain. One monomer is in tube representation (labeled), the second is in surface representation. L1, first leucine-rich repeat domain; CR, cysteine-rich domain; L2, second leucine-rich repeat domain; FnIII-1, -2 and -3; first, second and third fibronectin type III domains, respectively; αCT, α-subunit C-terminal segment; coral disk, plasma membrane. (B) Insulin bound to μIR; the view direction with respect to L1 in the apo-ectodomain is indicated by the arrow in A. Only B-chain residues indicated in black were originally resolved (11). The brown tube indicates classical location of residues B20-B30 in free insulin, occluded in the complex by αCT. (C) Orthogonal views of unmodeled 2F_obs-F_calc difference electron density (SI Appendix), indicating association of map segments with the αCT C-terminal extension (transparent magenta), insulin B-chain C-terminal segment (transparent gray), and Asn^A21 (transparent yellow). Difference density is sharpened (B_sharp = −160 Ų). (D–F) Refined models of respective segments insulin B20–B27, αCT 714–719, and insulin A17-A21 within postrefinement 2F_obs-F_calc difference electron density (B_sharp = −160 Ų). D is in stereo.We describe here the structure and interactions of the detached B-chain C-terminal segment of insulin on its binding to a “microreceptor” (μIR), an L1–CR domain-minimized version of the α-subunit (designated IR310.T) plus exogenous αCT peptide 704–719 (11). Our analysis defines a hinge in the B chain whose opening is coupled to repositioning of αCT between nonpolar surfaces of L1 and the insulin A chain. To understand the role of this hinge in holoreceptor binding and signaling, we designed three insulin analogs containing structural constraints (d-Ala^B20, d-Ala^B23]-insulin, ∆Phe^B25-insulin, and ∆Phe^B24-insulin, where ∆Phe is (α,β)-dehydrophenylalanine (Fig. 2) (12). The latter represents, to our knowledge, the first use of ∆Phe—a rigid “β-breaker” with extended electronic conjugation between its side chain and main chain (SI Appendix, Fig. S1)—as a probe of induced fit in macromolecular recognition. In addition, a fourth analog, active but with anomalous flexibility in the B chain (5, 6) (

The Impact of COVID-19 on Routine Medical Care and Cancer Screening

BackgroundCOVID-19 restrictions and fear dramatically changed the use of medical care. Understanding the magnitude of cancelled and postponed appointments and associated factors can help identify approaches to mitigate unmet need.ObjectiveTo determine the proportion of medical visits cancelled or postponed and for whom. We hypothesized that adults with serious medical conditions and those with higher anxiety, depressive symptoms, and avoidance-oriented coping would have more cancellations/postponements.DesignFour nationally representative cross-sectional surveys conducted online in May, July, October, and December 2020.Participants59,747 US adults who completed 15-min online surveys. 69% cooperation rate.MeasuresPhysical and mental health visits and cancer screening cancelled or postponed over prior 2 months. Plan to cancel or postpone visits over the next 2 months. Relationship with demographics, medical conditions, local COVID-19 death rate, anxiety, depressive symptoms, coping, intolerance of uncertainty, and perceived COVID-19 risk.Key ResultsOf the 58% (N = 34,868) with a medical appointment during the 2 months before the survey, 64% had an appointment cancelled or postponed in May, decreasing to 37% in December. Of the 41% of respondents with scheduled cancer screening, 20% cancelled/postponed, which was stable May to December. People with more medical conditions were more likely to cancel or postpone medical visits (OR 1.19 per condition, 95% CI 1.16, 1.22) and cancer screening (OR 1.20, 95% CI 1.15, 1.24). Race, ethnicity, and income had weak associations with cancelled/postponed visits, local death rate was unrelated, but anxiety and depressive symptoms were strongly related to cancellations, and this grew between May and December.ConclusionsCancelled medical care and cancer screening were more common among persons with medical conditions, anxiety and depression, even after accounting for COVID-19 deaths. Outreach and support to ensure that patients are not avoiding needed care due to anxiety, depression and inaccurate perceptions of risk will be important.Supplementary InformationThe online version contains supplementary material available at 10.1007/s11606-021-07254-x.KEY WORDS: COVID-19, missed medical appointments, cancer screening