Folic acid conjugated nanomedicines |
Folic acid-cytotoxic drug conjugates |
Folic acid-maytansinoid conjugates |
Marked antiproliferative effect in ovarian, colon, nasopharyngeal carcinoma, lung, and cervical cancer (FR positive). No-activity in melanoma and breast cancer (FR negative) |
Pre-clinical |
[27,28] |
Folic acid-5-fluorouracil conjugates |
Antitumor effect in colon cancer that overexpresses FRs |
Pre-clinical |
[30] |
Folic acid-methotrexate-arabinogalactan conjugates |
Cytotoxic effect in leukemia models |
Pre-clinical |
[31] |
Folic acid-SB-T-1214 conjugates |
Cytotoxic effect in blood, breast, and ovarian carcinomas overexpressing FRs. |
Pre-clinical |
[32] |
Folic acid-mitomicyn conjugates |
Cytotoxic activity in lung adenocarcinoma models that overexpress FR |
Pre-clinical |
[33] |
Folic acid-bleomicyn conjugates |
Cytotoxic effect in ovarian cancer (FR positive) |
Pre-clinical |
[34] |
Folic acid-camptothecin conjugates |
Cytotoxic effect in FR positive cancer cells of the mouth |
Pre-clinical |
[37] |
Folic acid-polyethylene glycol-rhaponticin conjugates |
Potent cytotoxic effect in FR positive epithelial and KB cancer cells. No-activity in FR-negative breast cancer cells |
Pre-clinical |
[38] |
Folic acid conjugated to a vinca alkaloid |
Potent effect in ovarian cancer models (FR positive). This formulation is under clinical research |
Clinical trial |
[39] |
Folic acid conjugated to solubilizing peptide moiety (BMS-753493) |
Phase I clinical studies in ovarian, colorectal, lung, and mammary tumors overexpressing FRs. An objetive anticancer response was not detected. |
Clinical trial |
[76] |
Folic acid conjugated to tubulysin (EC-1456) |
Potent cytotoxic effect in vintafolide resistant FR-positive KB cancer cells. Phase I clinical studies in non-small lung cancer and ovarian cancer |
Clinical trial |
[77] |
Folic acid-Paclitaxel conjugates |
No higher effect compared with unconjugated drugs in colon cancer cells that overexpress FR |
Pre-clinical |
[40] |
Folic acid-polyethylene glycol-cisplatin conjugates |
No higher effect compared with unconjugated drugs in lung cancer cells that overexpress FR. However, a higher uptake was detected |
Pre-clinical |
[41] |
Folic acidfunctionalized nanoparticles |
Folic acid-coated pH-sensitive liposomes loaded with doxorubicin |
Cytotoxic effect in breast cancer models (FR positive) |
Pre-clinical |
[45] |
Folic acid-coated pH-sensitive liposomes loaded with paclitaxel |
Pre-clinical |
[46,47] |
Folic acid-coated non-pH-sensitive liposomes loaded with doxorubicin |
Pre-clinical |
[49] |
Folic acid-coated silica mesoporous nanoparticles loaded with topotecan |
Cytotoxic effect in retina cancer models (FR positive) |
Pre-clinical |
[52] |
Folic acid-coated silica mesoporous nanoparticles loaded with cisplatin |
Cytotoxic effect in cervical cancer models (FR positive) |
Pre-clinical |
[51] |
Folic acid-coated silica mesoporous nanoparticles loaded with doxorubicin |
Pre-clinical |
[50] |
Folic acid-coated Poly(lactic-co-glycolic acid) nanoparticles loaded with cisplatin |
Pre-clinical |
[53] |
Folic acid-Alendronate-coated Poly(lactic-co-glycolic acid) nanoparticles loaded with paclitaxel |
Cytotoxic effect in non-small lung cancer overexpressing FR |
Pre-clinical |
[54] |
Folic acid-coated Poly(lactic-co-glycolic acid) nanoparticles loaded with paclitaxel and cisplatin |
Non-coated and folic acid coated nanoparticles showed a similar tumor growth inhibition in FR-positive lung tumo models developed in mice |
Pre-clinical |
[55] |
Folic acid-functionalized iron oxide condensed colloidal magnetic clusters containing doxorubicin |
Cytotoxic activity in FR-positive triple-negative breast cancer |
Pre-clinical |
[56] |
Folic acid-functionalized iron oxide nanoparticles |
Cytotoxic activity in FR-positive cervical cancer |
Pre-clinical |
[57] |
Folic acid-coated liposomes loaded with BIM-S plasmid |
Anticancer effect in non-small lung cancer. The formulations were designed for tumor associated macrophages |
Pre-clinical |
[61] |
Folic acid-functionalized-liposomes loaded with doxycycline |
Pre-clinical |
[63] |
Folic acid-coated chitosan nanoparticles loaded with signaling transducers and activators of transcription 3 |
Anticancer effect in Lewis lung adenocarcinoma. The formulations were designed for tumor associated macrophages |
Pre-clinical |
[64] |
Anti-FR-monoclonal antibodies coupled nanoformulations |
Antibody- drugconjugates |
Farletuzumab conjugated with eribulin |
Anticancer effect in non-small lung cancer overexpressing FR |
Clinical trial |
[68] |
Anti-FRα-monoclonal antibody-maytansinoid conjugate (mirvetuximab soravtansine) |
Higher anticancer activity in ovarian and non-small lung carcinomas overexpressing FRα. Several clinical trials are ongoing to evaluate its efficacy as monotherapy or in combination with chemo and other immmunotherapeutic drugs in ovarian cancer patients |
Clinical trial |
[69,70,71,72,73,74] |
FR-targeted-nanoparticles |
Antibody-conjugated gold-coated magnetite nanoparticles |
Anticancer effect in triple-negative breast cancer overexpressing FR |
Pre -clinical |
[75] |