Assessment of bioactive peptides derived from laminin-111 as prospective breast cancer-targeting agents.

Breast cancer remains a pressing public health issue primarily affecting women. Recent research has spotlighted bioactive peptides derived from laminin-111, implicated in breast tumor development. Remarkably, the sequences IKVAV, YIGSR, and KAFDITYVRLKF from the α1, ß1, and γ1 chains, respectively, have garnered significant attention. This study aims to assess the potential of these radiolabeled peptides as targeting agents for breast cancer. The three peptides were synthesized using the Fmoc strategy, purified via reversed-phase high-performance liquid chromatography (RP-HPLC), and characterized through mass spectrometry. Iodine-131 (131I) radiolabeling was performed using the chloramine T method, exhibiting high radiochemical yield and stability for [131I]I-YIKVAV and [131I]I-YIGSR. Conversely, [131I]I-KAFDITYVRLKF demonstrated low radiochemical yield and stability and was excluded from the biological studies. The lipophilicity of the compounds ranged from - 2.12 to - 1.10. Serum protein binding assay for [131I]I-YIKVAV and [131I]I-YIGSR reached ≅ 48% and ≅ 25%, respectively. Affinity for breast cancer cells was evaluated using MDA-MB-231 and MCF-7 tumor cell lines, indicating the affinity of the radiopeptides with these tumor cells. Ex vivo biodistribution profiles of the radiopeptides were assessed in the MDA-MB-231 breast tumor animal model, revealing tumor tissue accumulation, supported by a high tumor-to-contralateral muscle ratio and autoradiography. These results signify the effective penetration of YIKVAV and YIGSR into tumor tissue. Therefore, the synthesized α1 and ß1 peptide fragments exhibit favorable characteristics as potential breast cancer-targeting agents, promising future exploration as radiopharmaceuticals for breast cancer.

Radiochemical and biological assessments of a PSMA-I&S cold kit for fast and inexpensive 99mTc-labeling for SPECT imaging and radioguided surgery in prostate cancer.

The expression of prostate-specific membrane antigen (PSMA) is upregulated in prostate cancer (PCa) cells and PSMA-ligands have been radiolabeled and used as radiopharmaceuticals for targeted radionuclide therapy (TRT), single photon emission computed tomography (SPECT) or positron emission tomography (PET) molecular imaging, and radioguided surgery in PCa patients. Herein, we aimed at radiolabeling the PSMA-I&S cold kit with 99mTc, resulting in a radiopharmaceutical with high radiochemical yield (RCY) and stability for SPECT imaging and radioguided surgery in PCa malignancies. Various pre-clinical assays were conducted to evaluate the [99mTc]Tc-PSMA-I&S obtained by the cold kit. These assays included assessments of RCY, radiochemical stability in saline, lipophilicity, serum protein binding (SPB), affinity for LNCaP-PCa cells (binding and internalization studies), and ex vivo biodistribution profile in naive and LNCaP-PCa-bearing mice. The radiopharmaceutical was obtained with good RCY (92.05% ± 2.20%) and remained stable for 6 h. The lipophilicity was determined to be -2.41 ± 0.06, while the SPB was ∼97%. The binding percentages to LNCaP cells were 9.41% ± 0.57% (1 h) and 10.45% ± 0.45% (4 h), with 63.12 ± 0.93 (1 h) and 65.72% ± 1.28% (4 h) of the bound material being internalized. Blocking assays, employing an excess of unlabeled PSMA-I&S, resulted in a reduction in the binding percentage by 2.6 times. The ex vivo biodistribution profile confirmed high accumulation of [99mTc]Tc-PSMA-I&S in the tumor and the tumor-to-contralateral muscle ratio was ∼6.5. In conclusion, [99mTc]Tc-PSMA-I&S was successfully obtained by radiolabeling the cold kit using freshly eluted [99mTc]NaTcO4, exhibiting good RCY and radiochemical stability. The preclinical assays demonstrated that the radiopharmaceutical shows favorable characteristics for SPECT imaging and radioguided surgery in PCa patients.

Evaluation of Aggregation and Fibril Formation Propensity of Peptides Involved in Amyloid Diseases.

BACKGROUND: Amyloidosis is defined as a generic term given to a series of proteins/ polypeptides in the form of amyloid fibrils that are deposited in the tissues and give rise to a set of clinical disorders. OBJECTIVES: This work developed an approach to first examine chain association propensities of several amyloidogenic peptides: SNNFGAILSS from the islet amyloid polypeptide (coded IAPP), NAGDVAFV from the protein responsible for corneal amyloidosis (coded Lactoferrin), and (1-42) ß-amyloid (coded Amyloid). METHODS: Fmoc-synthesis protocol was applied for the synthesis of IAPP and Lactoferrin whereas Amyloid was synthesized through the Boc-chemistry as early detailed. RESULTS AND CONCLUSION: The fluorescence and light scattering experiments results indicated that Amyloid revealed a surprising reduction in the aggregation process as a function of time (decrease of about 20-30% in 3 days) through both methods. In contrast, the aggregation intensity of IAPP increased around 35% after 3 days via a light scattering procedure. These findings are very relevant for interpretation of the aggregation phenomenon of amyloidogenic peptides. The final part of this work proposed rules for dissolution of aggregated structures based on the Lewis acid and Lewis base properties of solvents. Very low solubility values (6 to 15%) were measured for peptides in water but with increased to around 90% in strong nucleophilic or strong electrophilic organic solvents. However, care should be taken when strong nucleophilic solvents such as DMSO are mixed with the strong electrophilic such as water. Both solvent molecules tend to attract each other rather than to dissolve peptide chains thus lowering the capacity of this type of solution for fibril dissolution.