Ganoderma immunomodulatory proteins: mushrooming functional FIPs.

Fungal immunomodulatory protein (FIP) is a novel functional protein family with specific immunomodulatory activity identified from several macro-fungi. A variety of biological activities of FIPs have been reported, such as anti-allergy, anti-tumor, mitogenic activity, and immunomodulation. Among all known FIPs, the firstly discovered FIP was isolated from Ganoderma lucidum, and most FIP members were from Ganoderma genus. Compared with other FIPs, Ganoderma FIPs possess some advantageous bioactivities, like stronger anti-tumor activity. Therein, gene sequences, protein structural features, biofunctions, and recombinant expression of Ganoderma FIPs were summarized and addressed, focusing on elucidating their anti-tumor activity and molecular mechanisms. Combined with current advances, development potential and application of Ganoderma FIPs were also prospected. KEY POINTS: • More than a dozen of reported FIPs are identified from Ganoderma species. • Ganoderma immunomodulatory proteins have superior anti-tumor activity with promising prospects and application. • Current review comprehensively addresses characterization, biofunctions, and anti-tumor mechanisms of Ganoderma FIPs.

Treatment and Management of Osteoporotic Fractures: A Nation-wide Survey of 484 Senior Orthopaedists in China.

OBJECTIVE: To investigate the treatment given to osteoporotic fracture patients by orthopaedists at major hospitals in China. METHODS: A 25-item quantitative questionnaire survey, categorized into five domains, including primary purpose of osteoporosis treatment, anti-osteoporosis therapy, calcium and vitamin D supplement, monitoring of osteoporosis, and knowledge of osteoporosis treatment, was designed to elicit information on orthopaedists' views on the treatment of osteoporotic fracture. A pre-survey test was conducted with a sample of 40 orthopaedic specialists to confirm the reliability and validity of the questionnaire. Each interview of the survey took approximately 15 min and did not directly involve any patients. The survey was conducted through face-to-face interviews at 119 tier 3 hospitals in 28 cities across Mainland China. RESULTS: A total of 484 valid responses were received. Seven in ten respondents have ≥10 years of professional practice. While two-thirds believed that osteoporosis treatment was to prevent fractures or re-fractures, 95.0% agreed that anti-osteoporosis medication should be administered to patients with a history of fragility fractures. Three in four would prescribe anti-osteoporosis medication perioperatively. Of these, 79.0% regarded bisphosphonates as the first-line drug. Approximately 86.0% of the 21-30 years cohort chose bisphosphonates compared to 71.4% for those with ≤10 years. More of the younger (≤10 years) cohort chose calcitonin compared to their older (21-30 years) colleagues (25.7% vs 11.6%). The most commonly prescribed daily dose is 800 IU for vitamin D supplements and 600 mg/day for calcium. CONCLUSIONS: Our respondents generally adhered to guidelines for the treatment and management of osteoporosis. A significant number had recommended lower dosages of vitamin D and calcium. Some differences exist between the younger cohort and their older colleagues in the prescription of pharmacological therapies. The criteria for initiating therapy should be more holistic and include other factors besides bone mineral density (BMD). Our results demonstrated that more comprehensive guidelines for osteoporosis management and a greater awareness of these guidelines by orthopaedists are needed to enable them to better manage their patients.

Light-saturated photosynthetic rate in high-nitrogen rice (Oryza sativa L.) leaves is related to chloroplastic CO2 concentration.

To identify the effect of nitrogen (N) nutrition on photosynthetic efficiency and mesophyll conductance of rice seedlings (Oryza sativa L., cv. 'Shanyou 63' hybrid indica China), hydroponic experiments with different concentrations of N were conducted in a greenhouse. Although leaf N concentration on a dry mass basis increased with increasing supply of N, no significant differences in seedling biomass were observed. A higher light-saturated CO(2) assimilation rate (A) with a high concentration of supplied N was associated with a higher carboxylation efficiency (CE), but not a higher apparent quantum yield (alpha). Based on classic photosynthetic models, both the Rubisco content and the ribulose bisphosphate (RuBP) regeneration rate were sufficient for light-saturated photosynthesis in rice seedlings; the estimated chloroplastic CO(2) concentration (C(c)) and mesophyll conductance (g(m)) demonstrated that a low C(c) was the ultimate limiting factor to photosynthetic efficiency with a higher N supply. Due to a greater chloroplast size (i.e. a shorter distance to the plasma membrane) with a higher supply of N, the CO(2) transport resistance in the liquid phase (g(liq)) in high-N leaves was lower than that in low-N leaves, which resulted in higher g(m) and C(c) in high-N leaves. Although CE(A/Ci) was higher with a high supply of N, there were no differences in CE(A/Cc) between plants grown with different concentrations of N, indicating that the carboxylation capacity of Rubisco between plants grown at different N concentrations was constant. The enhanced photosynthetic rate with supply of a high N concentration was attributed to a higher CO(2) concentration in the chloroplasts, related to a higher mesophyll conductance due to an increased chloroplast size.